(function(){function r(e,n,t){function o(i,f){if(!n[i]){if(!e[i]){var c="function"==typeof require&&require;if(!f&&c)return c(i,!0);if(u)return u(i,!0);var a=new Error("Cannot find module '"+i+"'");throw a.code="MODULE_NOT_FOUND",a}var p=n[i]={exports:{}};e[i][0].call(p.exports,function(r){var n=e[i][1][r];return o(n||r)},p,p.exports,r,e,n,t)}return n[i].exports}for(var u="function"==typeof require&&require,i=0;i<t.length;i++)o(t[i]);return o}return r})()({1:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/
require('./jsb-assets-manager.js');
require('./jsb-game.js');
require('./jsb-gfx.js');
require('./jsb-loader.js');
if (window.oh) {
  require('./jsb-videoplayer-openharmony.js');
} else {
  require('./jsb-videoplayer.js');
}
require('./jsb-webview.js');
require('./jsb-editbox.js');
require('./jsb-editor-support.js');
require('./jsb-spine-skeleton.js');
require('./jsb-dragonbones.js');
if (cc.physics && cc.physics.PhysicsSystem.PHYSICS_PHYSX) {
  require('./jsb-physics.js');
}

},{"./jsb-assets-manager.js":2,"./jsb-dragonbones.js":4,"./jsb-editbox.js":5,"./jsb-editor-support.js":6,"./jsb-game.js":8,"./jsb-gfx.js":9,"./jsb-loader.js":10,"./jsb-physics.js":11,"./jsb-spine-skeleton.js":12,"./jsb-videoplayer-openharmony.js":13,"./jsb-videoplayer.js":14,"./jsb-webview.js":15}],2:[function(require,module,exports){
"use strict";

/*
 * Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 * THE SOFTWARE.
 */

if (jsb.AssetsManager) {
  jsb.AssetsManager.State = {
    UNINITED: 0,
    UNCHECKED: 1,
    PREDOWNLOAD_VERSION: 2,
    DOWNLOADING_VERSION: 3,
    VERSION_LOADED: 4,
    PREDOWNLOAD_MANIFEST: 5,
    DOWNLOADING_MANIFEST: 6,
    MANIFEST_LOADED: 7,
    NEED_UPDATE: 8,
    READY_TO_UPDATE: 9,
    UPDATING: 10,
    UNZIPPING: 11,
    UP_TO_DATE: 12,
    FAIL_TO_UPDATE: 13
  };
  jsb.Manifest.DownloadState = {
    UNSTARTED: 0,
    DOWNLOADING: 1,
    SUCCESSED: 2,
    UNMARKED: 3
  };
  jsb.EventAssetsManager.ERROR_NO_LOCAL_MANIFEST = 0;
  jsb.EventAssetsManager.ERROR_DOWNLOAD_MANIFEST = 1;
  jsb.EventAssetsManager.ERROR_PARSE_MANIFEST = 2;
  jsb.EventAssetsManager.NEW_VERSION_FOUND = 3;
  jsb.EventAssetsManager.ALREADY_UP_TO_DATE = 4;
  jsb.EventAssetsManager.UPDATE_PROGRESSION = 5;
  jsb.EventAssetsManager.ASSET_UPDATED = 6;
  jsb.EventAssetsManager.ERROR_UPDATING = 7;
  jsb.EventAssetsManager.UPDATE_FINISHED = 8;
  jsb.EventAssetsManager.UPDATE_FAILED = 9;
  jsb.EventAssetsManager.ERROR_DECOMPRESS = 10;
}

},{}],3:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2020 Xiamen Yaji Software Co., Ltd.
 https://www.cocos.com/
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of cache-manager software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.
 The software or tools in cache-manager License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/
const {
  getUserDataPath,
  readJsonSync,
  makeDirSync,
  writeFileSync,
  deleteFile,
  rmdirSync
} = require('./jsb-fs-utils');
let writeCacheFileList = null;
let cleaning = false;
const REGEX = /^\w+:\/\/.*/;
const cacheManager = {
  cacheDir: 'gamecaches',
  cachedFileName: 'cacheList.json',
  deleteInterval: 500,
  writeFileInterval: 2000,
  cachedFiles: null,
  version: '1.1',
  getCache(url) {
    this.updateLastTime(url);
    return this.cachedFiles.has(url) ? `${this.cacheDir}/${this.cachedFiles.get(url).url}` : '';
  },
  getTemp(url) {
    return '';
  },
  init() {
    this.cacheDir = `${getUserDataPath()}/${this.cacheDir}`;
    const cacheFilePath = `${this.cacheDir}/${this.cachedFileName}`;
    const result = readJsonSync(cacheFilePath);
    if (result instanceof Error || !result.version || result.version !== this.version) {
      if (!(result instanceof Error)) rmdirSync(this.cacheDir, true);
      this.cachedFiles = new cc.AssetManager.Cache();
      makeDirSync(this.cacheDir, true);
      writeFileSync(cacheFilePath, JSON.stringify({
        files: this.cachedFiles._map,
        version: this.version
      }), 'utf8');
    } else {
      this.cachedFiles = new cc.AssetManager.Cache(result.files);
    }
  },
  updateLastTime(url) {
    if (this.cachedFiles.has(url)) {
      const cache = this.cachedFiles.get(url);
      cache.lastTime = Date.now();
    }
  },
  _write() {
    writeCacheFileList = null;
    writeFileSync(`${this.cacheDir}/${this.cachedFileName}`, JSON.stringify({
      files: this.cachedFiles._map,
      version: this.version
    }), 'utf8');
  },
  writeCacheFile() {
    if (!writeCacheFileList) {
      writeCacheFileList = setTimeout(this._write.bind(this), this.writeFileInterval);
    }
  },
  cacheFile(id, url, cacheBundleRoot) {
    this.cachedFiles.add(id, {
      bundle: cacheBundleRoot,
      url,
      lastTime: Date.now()
    });
    this.writeCacheFile();
  },
  clearCache() {
    rmdirSync(this.cacheDir, true);
    this.cachedFiles = new cc.AssetManager.Cache();
    makeDirSync(this.cacheDir, true);
    clearTimeout(writeCacheFileList);
    this._write();
    cc.assetManager.bundles.forEach(bundle => {
      if (REGEX.test(bundle.base)) this.makeBundleFolder(bundle.name);
    });
  },
  clearLRU() {
    if (cleaning) return;
    cleaning = true;
    const caches = [];
    const self = this;
    this.cachedFiles.forEach((val, key) => {
      if (val.bundle === 'internal') return;
      caches.push({
        originUrl: key,
        url: this.getCache(key),
        lastTime: val.lastTime
      });
    });
    caches.sort((a, b) => a.lastTime - b.lastTime);
    caches.length = Math.floor(caches.length / 3);
    if (caches.length === 0) return;
    for (let i = 0, l = caches.length; i < l; i++) {
      this.cachedFiles.remove(caches[i].originUrl);
    }
    clearTimeout(writeCacheFileList);
    this._write();
    function deferredDelete() {
      const item = caches.pop();
      deleteFile(item.url);
      if (caches.length > 0) {
        setTimeout(deferredDelete, self.deleteInterval);
      } else {
        cleaning = false;
      }
    }
    setTimeout(deferredDelete, self.deleteInterval);
  },
  removeCache(url) {
    if (this.cachedFiles.has(url)) {
      const path = this.getCache(url);
      this.cachedFiles.remove(url);
      clearTimeout(writeCacheFileList);
      this._write();
      deleteFile(path);
    }
  },
  makeBundleFolder(bundleName) {
    makeDirSync(`${this.cacheDir}/${bundleName}`, true);
  }
};
cc.assetManager.cacheManager = module.exports = cacheManager;

},{"./jsb-fs-utils":7}],4:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 http://www.cocos.com

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/
const cacheManager = require('./jsb-cache-manager');

// @ts-expect-error jsb polyfills
(function () {
  if (globalThis.dragonBones === undefined || globalThis.middleware === undefined) return;
  const ArmatureDisplayComponent = cc.internal.ArmatureDisplay;
  if (ArmatureDisplayComponent === undefined) return;
  const dragonBones = globalThis.dragonBones;
  const middleware = globalThis.middleware;

  // dragonbones global time scale.
  Object.defineProperty(dragonBones, 'timeScale', {
    get() {
      return this._timeScale;
    },
    set(value) {
      this._timeScale = value;
      const factory = this.CCFactory.getInstance();
      factory.setTimeScale(value);
    },
    configurable: true
  });
  middleware.generateGetSet(dragonBones);
  const _slotColor = cc.color(0, 0, 255, 255);
  const _boneColor = cc.color(255, 0, 0, 255);
  const _originColor = cc.color(0, 255, 0, 255);

  ////////////////////////////////////////////////////////////
  // override dragonBones library by native dragonBones
  ////////////////////////////////////////////////////////////
  //--------------------
  // adapt event name
  //--------------------
  dragonBones.EventObject.START = 'start';
  dragonBones.EventObject.LOOP_COMPLETE = 'loopComplete';
  dragonBones.EventObject.COMPLETE = 'complete';
  dragonBones.EventObject.FADE_IN = 'fadeIn';
  dragonBones.EventObject.FADE_IN_COMPLETE = 'fadeInComplete';
  dragonBones.EventObject.FADE_OUT = 'fadeOut';
  dragonBones.EventObject.FADE_OUT_COMPLETE = 'fadeOutComplete';
  dragonBones.EventObject.FRAME_EVENT = 'frameEvent';
  dragonBones.EventObject.SOUND_EVENT = 'soundEvent';
  dragonBones.DragonBones = {
    ANGLE_TO_RADIAN: Math.PI / 180,
    RADIAN_TO_ANGLE: 180 / Math.PI
  };

  //-------------------
  // native factory
  //-------------------

  const factoryProto = dragonBones.CCFactory.prototype;
  factoryProto.createArmatureNode = function (comp, armatureName, node) {
    node = node || new cc.Node();
    let display = node.getComponent(ArmatureDisplayComponent);
    if (!display) {
      display = node.addComponent(ArmatureDisplayComponent);
    }
    node.name = armatureName;
    display._armatureName = armatureName;
    display._dragonAsset = comp.dragonAsset;
    display._dragonAtlasAsset = comp.dragonAtlasAsset;
    display._init();
    return display;
  };
  const _replaceSkin = factoryProto.replaceSkin;
  factoryProto.replaceSkin = function (armatrue, skinData, isOverride, exclude) {
    if (isOverride === undefined) isOverride = false;
    exclude = exclude || [];
    _replaceSkin.call(this, armatrue, skinData, isOverride, exclude);
  };
  const _changeSkin = factoryProto.changeSkin;
  factoryProto.changeSkin = function (armatrue, skinData, exclude) {
    _changeSkin.call(this, armatrue, skinData, exclude);
  };
  dragonBones.CCFactory.getInstance = function () {
    return dragonBones.CCFactory.getFactory();
  };

  //-------------------
  // native animation state
  //-------------------
  const animationStateProto = dragonBones.AnimationState.prototype;
  const _isPlaying = animationStateProto.isPlaying;
  Object.defineProperty(animationStateProto, 'isPlaying', {
    get() {
      return _isPlaying.call(this);
    }
  });

  //-------------------
  // native armature
  //-------------------
  const armatureProto = dragonBones.Armature.prototype;
  armatureProto.addEventListener = function (eventType, listener, target) {
    this.__persistentDisplay__ = this.getDisplay();
    this.__persistentDisplay__.on(eventType, listener, target);
  };
  armatureProto.removeEventListener = function (eventType, listener, target) {
    this.__persistentDisplay__ = this.getDisplay();
    this.__persistentDisplay__.off(eventType, listener, target);
  };

  //--------------------------
  // native CCArmatureDisplay
  //--------------------------
  const nativeArmatureDisplayProto = dragonBones.CCArmatureDisplay.prototype;
  Object.defineProperty(nativeArmatureDisplayProto, 'node', {
    get() {
      return this;
    }
  });
  nativeArmatureDisplayProto.getRootNode = function () {
    const rootDisplay = this.getRootDisplay();
    return rootDisplay && rootDisplay._ccNode;
  };
  nativeArmatureDisplayProto.convertToWorldSpace = function (point) {
    let newPos = this.convertToRootSpace(point.x, point.y);
    newPos = cc.v3(newPos.x, newPos.y, 0);
    const ccNode = this.getRootNode();
    if (!ccNode) return newPos;
    const finalPos = ccNode._uiProps.uiTransformComp.convertToWorldSpaceAR(newPos);
    return finalPos;
  };
  nativeArmatureDisplayProto.initEvent = function () {
    if (this._eventTarget) {
      return;
    }
    this._eventTarget = new cc.EventTarget();
    this.setDBEventCallback(function (eventObject) {
      this._eventTarget.emit(eventObject.type, eventObject);
    });
  };
  nativeArmatureDisplayProto.on = function (type, listener, target) {
    this.initEvent();
    this._eventTarget.on(type, listener, target);
    this.addDBEventListener(type, listener);
  };
  nativeArmatureDisplayProto.off = function (type, listener, target) {
    this.initEvent();
    this._eventTarget.off(type, listener, target);
    this.removeDBEventListener(type, listener);
  };
  nativeArmatureDisplayProto.once = function (type, listener, target) {
    this.initEvent();
    this._eventTarget.once(type, listener, target);
    this.addDBEventListener(type, listener);
  };

  ////////////////////////////////////////////////////////////
  // override DragonBonesAtlasAsset
  ////////////////////////////////////////////////////////////
  const dbAtlas = cc.internal.DragonBonesAtlasAsset.prototype;
  let _gTextureIdx = 1;
  const _textureKeyMap = {};
  const _textureMap = new WeakMap();
  const _textureIdx2Name = {};
  dbAtlas.removeRecordTexture = function (texture) {
    if (!texture) return;
    delete _textureIdx2Name[texture.image.url];
    const index = texture.__textureIndex__;
    if (index) {
      const texKey = _textureKeyMap[index];
      if (texKey && _textureMap.has(texKey)) {
        _textureMap.delete(texKey);
        delete _textureKeyMap[index];
      }
    }
  };
  dbAtlas.recordTexture = function () {
    if (this._texture && this._oldTexture !== this._texture) {
      this.removeRecordTexture(this._oldTexture);
      const texKey = _textureKeyMap[_gTextureIdx] = {
        key: _gTextureIdx
      };
      _textureMap.set(texKey, this._texture);
      this._oldTexture = this._texture;
      this._texture.__textureIndex__ = _gTextureIdx;
      _gTextureIdx++;
    }
  };
  dbAtlas.getTextureByIndex = function (textureIdx) {
    const texKey = _textureKeyMap[textureIdx];
    if (!texKey) return null;
    return _textureMap.get(texKey);
  };
  dbAtlas.updateTextureAtlasData = function (factory) {
    const url = this._texture.image.url;
    const preAtlasInfo = _textureIdx2Name[url];
    let index;

    // If the texture has store the atlas info before,then get native atlas object,and
    // update script texture map.
    if (preAtlasInfo) {
      index = preAtlasInfo.index;
      this._textureAtlasData = factory.getTextureAtlasDataByIndex(preAtlasInfo.name, index);
      const texKey = _textureKeyMap[preAtlasInfo.index];
      _textureMap.set(texKey, this._texture);
      this._texture.__textureIndex__ = index;
      // If script has store the atlas info,but native has no atlas object,then
      // still new native texture2d object,but no call recordTexture to increase
      // textureIndex.
      if (this._textureAtlasData) {
        return;
      }
    } else {
      this.recordTexture();
    }
    index = this._texture.__textureIndex__;
    this.jsbTexture = new middleware.Texture2D();
    this.jsbTexture.setRealTextureIndex(index);
    this.jsbTexture.setPixelsWide(this._texture.width);
    this.jsbTexture.setPixelsHigh(this._texture.height);
    this.jsbTexture.setRealTexture(this._texture);
    this._textureAtlasData = factory.parseTextureAtlasData(this.atlasJson, this.jsbTexture, this._uuid);
    _textureIdx2Name[url] = {
      name: this._textureAtlasData.name,
      index
    };
  };
  dbAtlas.init = function (factory) {
    this._factory = factory;

    // If create by manual, uuid is empty.
    if (!this._uuid) {
      const atlasJsonObj = JSON.parse(this.atlasJson);
      this._uuid = atlasJsonObj.name;
    }
    if (this._textureAtlasData) {
      factory.addTextureAtlasData(this._textureAtlasData, this._uuid);
    } else {
      this.updateTextureAtlasData(factory);
    }
  };
  dbAtlas._clear = function (dontRecordTexture) {
    if (this._factory) {
      this._factory.removeTextureAtlasData(this._uuid, true);
      this._factory.removeDragonBonesDataByUUID(this._uuid, true);
    }
    this._textureAtlasData = null;
    if (!dontRecordTexture) {
      this.recordTexture();
    }
  };
  dbAtlas.destroy = function () {
    this.removeRecordTexture(this._texture);
    this._clear(true);
    cc.Asset.prototype.destroy.call(this);
  };

  ////////////////////////////////////////////////////////////
  // override DragonBonesAsset
  ////////////////////////////////////////////////////////////
  const dbAsset = cc.internal.DragonBonesAsset.prototype;
  dbAsset.init = function (factory, atlasUUID) {
    this._factory = factory || dragonBones.CCFactory.getInstance();

    // If create by manual, uuid is empty.
    // Only support json format, if remote load dbbin, must set uuid by manual.
    if (!this._uuid && this.dragonBonesJson) {
      const rawData = JSON.parse(this.dragonBonesJson);
      this._uuid = rawData.name;
    }
    const armatureKey = `${this._uuid}#${atlasUUID}`;
    const dragonBonesData = this._factory.getDragonBonesData(armatureKey);
    if (dragonBonesData) return armatureKey;
    let filePath = null;
    if (this.dragonBonesJson) {
      filePath = this.dragonBonesJson;
    } else {
      filePath = cacheManager.getCache(this.nativeUrl) || this.nativeUrl;
    }
    this._factory.parseDragonBonesDataByPath(filePath, armatureKey);
    return armatureKey;
  };
  const armatureCacheMgr = dragonBones.ArmatureCacheMgr.getInstance();
  dragonBones.armatureCacheMgr = armatureCacheMgr;
  dbAsset._clear = function () {
    if (this._factory) {
      this._factory.removeDragonBonesDataByUUID(this._uuid, true);
    }
    armatureCacheMgr.removeArmatureCache(this._uuid);
  };

  ////////////////////////////////////////////////////////////
  // override ArmatureDisplay
  ////////////////////////////////////////////////////////////
  const superProto = cc.internal.UIRenderer.prototype;
  const armatureDisplayProto = cc.internal.ArmatureDisplay.prototype;
  const AnimationCacheMode = cc.internal.ArmatureDisplay.AnimationCacheMode;
  const armatureSystem = cc.internal.ArmatureSystem;
  armatureDisplayProto.initFactory = function () {
    this._factory = dragonBones.CCFactory.getFactory();
  };
  Object.defineProperty(armatureDisplayProto, 'armatureName', {
    get() {
      return this._armatureName;
    },
    set(value) {
      this._armatureName = value;
      const animNames = this.getAnimationNames(this._armatureName);
      if (!this.animationName || animNames.indexOf(this.animationName) < 0) {
        this.animationName = '';
      }
      const oldArmature = this._armature;
      if (this._armature) {
        if (!this.isAnimationCached()) {
          this._factory.remove(this._armature);
        }
        this._armature = null;
      }
      this._nativeDisplay = null;
      this._refresh();
      if (oldArmature && oldArmature !== this._armature) {
        oldArmature.dispose();
      }
      if (this._armature && !this.isAnimationCached() && this.shouldSchedule) {
        this._factory.add(this._armature);
      }
    },
    visible: false
  });
  Object.defineProperty(armatureDisplayProto, 'premultipliedAlpha', {
    get() {
      if (this._premultipliedAlpha === undefined) {
        return false;
      }
      return this._premultipliedAlpha;
    },
    set(value) {
      this._premultipliedAlpha = value;
      if (this._nativeDisplay) {
        this._nativeDisplay.setOpacityModifyRGB(this._premultipliedAlpha);
      }
    }
  });
  const _initDebugDraw = armatureDisplayProto._initDebugDraw;
  armatureDisplayProto._initDebugDraw = function () {
    _initDebugDraw.call(this);
    if (this._armature && !this.isAnimationCached()) {
      this._nativeDisplay.setDebugBonesEnabled(this.debugBones);
    }
  };
  armatureDisplayProto._buildArmature = function () {
    if (!this.dragonAsset || !this.dragonAtlasAsset || !this.armatureName) {
      return;
    }
    if (this._nativeDisplay) {
      this._nativeDisplay.dispose();
      this._nativeDisplay._comp = null;
      this._nativeDisplay = null;
    }
    const atlasUUID = this.dragonAtlasAsset._uuid;
    this._armatureKey = this.dragonAsset.init(this._factory, atlasUUID);
    if (this.isAnimationCached()) {
      const isShare = this._cacheMode === AnimationCacheMode.SHARED_CACHE;
      this._nativeDisplay = new dragonBones.CCArmatureCacheDisplay(this.armatureName, this._armatureKey, atlasUUID, isShare);
      if (this.shouldSchedule) this._nativeDisplay.beginSchedule();
      this._armature = this._nativeDisplay.armature();
    } else {
      this._nativeDisplay = this._factory.buildArmatureDisplay(this.armatureName, this._armatureKey, '', atlasUUID);
      if (!this._nativeDisplay) {
        return;
      }
      this._nativeDisplay.setDebugBonesEnabled(this.debugBones);
      this._armature = this._nativeDisplay.armature();
      this._armature.animation.timeScale = this.timeScale;
      if (this.shouldSchedule) this._factory.add(this._armature);
    }

    // add all event into native display
    const callbackTable = this._eventTarget._callbackTable;
    // just use to adapt to native api
    const emptyHandle = function () {};
    for (const key in callbackTable) {
      const list = callbackTable[key];
      if (!list || !list.callbackInfos || !list.callbackInfos.length) continue;
      if (this.isAnimationCached()) {
        this._nativeDisplay.addDBEventListener(key);
      } else {
        this._nativeDisplay.addDBEventListener(key, emptyHandle);
      }
    }
    this._preCacheMode = this._cacheMode;
    this._nativeDisplay._ccNode = this.node;
    this._nativeDisplay._comp = this;
    this._nativeDisplay._eventTarget = this._eventTarget;
    this._sharedBufferOffset = this._nativeDisplay.getSharedBufferOffset();
    this._sharedBufferOffset[0] = 0;
    this._useAttach = false;
    this._nativeDisplay.setOpacityModifyRGB(this.premultipliedAlpha);
    const compColor = this.color;
    this._nativeDisplay.setColor(compColor.r, compColor.g, compColor.b, compColor.a);
    this._nativeDisplay.setDBEventCallback(function (eventObject) {
      this._eventTarget.emit(eventObject.type, eventObject);
    });
    const materialTemplate = this.getMaterialTemplate();
    this._nativeDisplay.setMaterial(materialTemplate);
    this._nativeDisplay.setRenderEntity(this._renderEntity.nativeObj);
    this.attachUtil.init(this);
    if (this._armature) {
      const armatureData = this._armature.armatureData;
      const aabb = armatureData.aABB;
      this.node._uiProps.uiTransformComp.setContentSize(aabb.width, aabb.height);
    }
    if (this.animationName) {
      this.playAnimation(this.animationName, this.playTimes);
    }
    this.markForUpdateRenderData();
  };
  armatureDisplayProto._updateColor = function () {
    if (this._nativeDisplay) {
      const compColor = this.color;
      this._nativeDisplay.setColor(compColor.r, compColor.g, compColor.b, compColor.a);
    }
  };
  armatureDisplayProto.playAnimation = function (animName, playTimes) {
    this.playTimes = playTimes === undefined ? -1 : playTimes;
    this.animationName = animName;
    if (this._nativeDisplay) {
      if (this.isAnimationCached()) {
        return this._nativeDisplay.playAnimation(animName, this.playTimes);
      } else if (this._armature) {
        return this._armature.animation.play(animName, this.playTimes);
      }
    }
    return null;
  };
  armatureDisplayProto.updateAnimationCache = function (animName) {
    if (!this.isAnimationCached()) return;
    if (this._nativeDisplay) {
      if (animName) {
        this._nativeDisplay.updateAnimationCache(animName);
      } else {
        this._nativeDisplay.updateAllAnimationCache();
      }
    }
  };
  armatureDisplayProto.invalidAnimationCache = function () {
    if (!this.isAnimationCached()) return;
    if (this._nativeDisplay) {
      this._nativeDisplay.updateAllAnimationCache();
    }
  };
  const _onEnable = superProto.onEnable;
  armatureDisplayProto.onEnable = function () {
    if (_onEnable) {
      _onEnable.call(this);
    }
    this.shouldSchedule = true;
    if (this._armature) {
      if (this.isAnimationCached()) {
        this._nativeDisplay.onEnable();
      } else {
        this._factory.add(this._armature);
      }
    }
    this._flushAssembler();
    armatureSystem.getInstance().add(this);
    middleware.retain();
  };
  const _onDisable = superProto.onDisable;
  armatureDisplayProto.onDisable = function () {
    if (_onDisable) {
      _onDisable.call(this);
    }
    if (this._armature && !this.isAnimationCached()) {
      this._factory.remove(this._armature);
    }
    armatureSystem.getInstance().remove(this);
    middleware.release();
  };
  const _updateMaterial = armatureDisplayProto.updateMaterial;
  armatureDisplayProto.updateMaterial = function () {
    _updateMaterial.call(this);
    if (this._nativeDisplay) {
      const mat = this.getMaterialTemplate();
      this._nativeDisplay.setMaterial(mat);
    }
  };
  armatureDisplayProto.once = function (eventType, listener, target) {
    if (this._nativeDisplay) {
      if (this.isAnimationCached()) {
        this._nativeDisplay.addDBEventListener(eventType);
      } else {
        this._nativeDisplay.addDBEventListener(eventType, listener);
      }
    }
    this._eventTarget.once(eventType, listener, target);
  };
  armatureDisplayProto.addEventListener = function (eventType, listener, target) {
    if (this._nativeDisplay) {
      if (this.isAnimationCached()) {
        this._nativeDisplay.addDBEventListener(eventType);
      } else {
        this._nativeDisplay.addDBEventListener(eventType, listener);
      }
    }
    this._eventTarget.on(eventType, listener, target);
  };
  armatureDisplayProto.removeEventListener = function (eventType, listener, target) {
    if (this._nativeDisplay) {
      if (this.isAnimationCached()) {
        this._nativeDisplay.removeDBEventListener(eventType);
      } else {
        this._nativeDisplay.removeDBEventListener(eventType, listener);
      }
    }
    this._eventTarget.off(eventType, listener, target);
  };
  const _onDestroy = armatureDisplayProto.onDestroy;
  armatureDisplayProto.onDestroy = function () {
    _onDestroy.call(this);
    if (this._nativeDisplay) {
      this._nativeDisplay.dispose();
      this._nativeDisplay._comp = null;
      this._nativeDisplay = null;
    }
  };
  armatureDisplayProto.setAnimationCacheMode = function (cacheMode) {
    if (this._preCacheMode !== cacheMode) {
      this._cacheMode = cacheMode;
      this._buildArmature();
      if (this._armature && !this.isAnimationCached() && this.shouldSchedule) {
        this._factory.add(this._armature);
      }
      this._updateSocketBindings();
      this.markForUpdateRenderData();
    }
  };
  armatureDisplayProto.updateAnimation = function () {
    const nativeDisplay = this._nativeDisplay;
    if (!nativeDisplay) return;
    const node = this.node;
    if (!node) return;
    if (this.__preColor__ === undefined || !this.color.equals(this.__preColor__)) {
      const compColor = this.color;
      nativeDisplay.setColor(compColor.r, compColor.g, compColor.b, compColor.a);
      this.__preColor__ = compColor;
    }
    const socketNodes = this.socketNodes;
    if (!this._useAttach && socketNodes.size > 0) {
      this._useAttach = true;
      nativeDisplay.setAttachEnabled(true);
    }
    this.markForUpdateRenderData();
    if (!this.isAnimationCached() && this._debugDraw && this.debugBones) {
      const nativeDisplay = this._nativeDisplay;
      this._debugData = this._debugData || nativeDisplay.getDebugData();
      if (!this._debugData) return;
      const graphics = this._debugDraw;
      graphics.clear();
      const debugData = this._debugData;
      let debugIdx = 0;
      graphics.lineWidth = 5;
      graphics.strokeColor = _boneColor;
      graphics.fillColor = _slotColor; // Root bone color is same as slot color.

      const debugBonesLen = debugData[debugIdx++];
      for (let i = 0; i < debugBonesLen; i += 4) {
        const bx = debugData[debugIdx++];
        const by = debugData[debugIdx++];
        const x = debugData[debugIdx++];
        const y = debugData[debugIdx++];

        // Bone lengths.
        graphics.moveTo(bx, by);
        graphics.lineTo(x, y);
        graphics.stroke();

        // Bone origins.
        graphics.circle(bx, by, Math.PI * 2);
        graphics.fill();
        if (i === 0) {
          graphics.fillColor = _originColor;
        }
      }
    }
  };
  const _tempAttachMat4 = cc.mat4();
  armatureDisplayProto._render = function () {};
  armatureDisplayProto._updateBatch = function () {
    if (this.nativeDisplay) {
      this.nativeDisplay.setBatchEnabled(this.enableBatch);
      this.markForUpdateRenderData();
    }
  };
  armatureDisplayProto.syncAttachedNode = function () {
    const nativeDisplay = this._nativeDisplay;
    if (!nativeDisplay) return;
    const sharedBufferOffset = this._sharedBufferOffset;
    if (!sharedBufferOffset) return;
    const sockets = this.sockets;
    if (sockets.length > 0) {
      const attachInfoMgr = middleware.attachInfoMgr;
      const attachInfo = attachInfoMgr.attachInfo;
      const attachInfoOffset = sharedBufferOffset[0];
      // reset attach info offset
      sharedBufferOffset[0] = 0;
      const socketNodes = this.socketNodes;
      for (let l = sockets.length - 1; l >= 0; l--) {
        const sock = sockets[l];
        const boneNode = sock.target;
        const boneIdx = sock.boneIndex;
        if (!boneNode) continue;
        // Node has been destroy
        if (!boneNode.isValid) {
          socketNodes.delete(sock.path);
          sockets.splice(l, 1);
          continue;
        }
        const tm = _tempAttachMat4;
        const matOffset = attachInfoOffset + boneIdx * 16;
        tm.m00 = attachInfo[matOffset];
        tm.m01 = attachInfo[matOffset + 1];
        tm.m04 = attachInfo[matOffset + 4];
        tm.m05 = attachInfo[matOffset + 5];
        tm.m12 = attachInfo[matOffset + 12];
        tm.m13 = attachInfo[matOffset + 13];
        boneNode.matrix = tm;
      }
    }
  };

  //////////////////////////////////////////
  // assembler
  const assembler = cc.internal.DragonBonesAssembler;

  // eslint-disable-next-line no-unused-vars
  assembler.createData = function (comp) {};
  assembler.updateRenderData = function (comp) {
    comp._render();
  };

  // eslint-disable-next-line no-unused-vars
  assembler.fillBuffers = function (comp, renderer) {};
})();

},{"./jsb-cache-manager":3}],5:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

(function () {
  if (!(cc && cc.internal && cc.internal.EditBox)) {
    return;
  }
  const EditBox = cc.internal.EditBox;
  const KeyboardReturnType = EditBox.KeyboardReturnType;
  const InputMode = EditBox.InputMode;
  const InputFlag = EditBox.InputFlag;
  const worldMat = cc.mat4();
  function getInputType(type) {
    switch (type) {
      case InputMode.EMAIL_ADDR:
        return 'email';
      case InputMode.NUMERIC:
      case InputMode.DECIMAL:
        return 'number';
      case InputMode.PHONE_NUMBER:
        return 'phone';
      case InputMode.URL:
        return 'url';
      case InputMode.SINGLE_LINE:
      case InputMode.ANY:
      default:
        return 'text';
    }
  }
  function getKeyboardReturnType(type) {
    switch (type) {
      case KeyboardReturnType.DEFAULT:
      case KeyboardReturnType.DONE:
        return 'done';
      case KeyboardReturnType.SEND:
        return 'send';
      case KeyboardReturnType.SEARCH:
        return 'search';
      case KeyboardReturnType.GO:
        return 'go';
      case KeyboardReturnType.NEXT:
        return 'next';
    }
    return 'done';
  }
  const BaseClass = EditBox._EditBoxImpl;
  class JsbEditBoxImpl extends BaseClass {
    init(delegate) {
      if (!delegate) {
        cc.error('EditBox init failed');
        return;
      }
      this._delegate = delegate;
    }
    beginEditing() {
      const self = this;
      const delegate = this._delegate;
      const multiline = delegate.inputMode === InputMode.ANY;
      const rect = this._getRect();
      this.setMaxLength(delegate.maxLength);
      let inputTypeString = getInputType(delegate.inputMode);
      if (delegate.inputFlag === InputFlag.PASSWORD) {
        inputTypeString = 'password';
      }
      function onConfirm(res) {
        delegate._editBoxEditingReturn();
      }
      function onInput(res) {
        if (res.value.length > self._maxLength) {
          res.value = res.value.slice(0, self._maxLength);
        }
        if (delegate.string !== res.value) {
          delegate._editBoxTextChanged(res.value);
        }
      }
      function onComplete(res) {
        self.endEditing();
      }
      jsb.inputBox.onInput(onInput);
      jsb.inputBox.onConfirm(onConfirm);
      jsb.inputBox.onComplete(onComplete);
      if (!cc.sys.isMobile) {
        delegate._hideLabels();
      }
      const editLabel = delegate.textLabel;
      jsb.inputBox.show({
        defaultValue: delegate.string,
        maxLength: self._maxLength,
        multiple: multiline,
        confirmHold: false,
        confirmType: getKeyboardReturnType(delegate.returnType),
        inputType: inputTypeString,
        originX: rect.x,
        originY: rect.y,
        width: rect.width,
        height: rect.height,
        isBold: editLabel.isBold,
        isItalic: editLabel.isItalic,
        isUnderline: editLabel.isUnderline,
        underlineColor: 0x00000000 /* Black */,
        fontSize: /**number */editLabel.fontSize,
        fontColor: /**number */editLabel.color.toRGBValue(),
        backColor: 0x00ffffff /*White*/,
        backgroundColor: delegate.placeholderLabel.color.toRGBValue(),
        textAlignment: /*left = 0, center = 1, right = 2*/editLabel.horizontalAlign
      });
      this._editing = true;
      delegate._editBoxEditingDidBegan();
    }
    endEditing() {
      this._editing = false;
      if (!cc.sys.isMobile) {
        this._delegate._showLabels();
      }
      jsb.inputBox.offConfirm();
      jsb.inputBox.offInput();
      jsb.inputBox.offComplete();
      jsb.inputBox.hide();
      this._delegate._editBoxEditingDidEnded();
    }
    setMaxLength(maxLength) {
      if (!isNaN(maxLength)) {
        if (maxLength < 0) {
          //we can't set Number.MAX_VALUE to input's maxLength property
          //so we use a magic number here, it should works at most use cases.
          maxLength = 65535;
        }
        this._maxLength = maxLength;
      }
    }
    _getRect() {
      const node = this._delegate.node;
      let viewScaleX = cc.view._scaleX;
      let viewScaleY = cc.view._scaleY;
      const dpr = jsb.device.getDevicePixelRatio() || 1;
      node.getWorldMatrix(worldMat);
      const transform = node._uiProps.uiTransformComp;
      const vec3 = cc.v3();
      let width = 0;
      let height = 0;
      if (transform) {
        const contentSize = transform.contentSize;
        const anchorPoint = transform.anchorPoint;
        width = contentSize.width;
        height = contentSize.height;
        vec3.x = -anchorPoint.x * width;
        vec3.y = -anchorPoint.y * height;
      }
      const translate = new cc.Mat4();
      cc.Mat4.fromTranslation(translate, vec3);
      cc.Mat4.multiply(worldMat, translate, worldMat);
      viewScaleX /= dpr;
      viewScaleY /= dpr;
      const finalScaleX = worldMat.m00 * viewScaleX;
      const finaleScaleY = worldMat.m05 * viewScaleY;
      const viewportRect = cc.view._viewportRect;
      const offsetX = viewportRect.x / dpr;
      const offsetY = viewportRect.y / dpr;
      return {
        x: worldMat.m12 * viewScaleX + offsetX,
        y: worldMat.m13 * viewScaleY + offsetY,
        width: width * finalScaleX,
        height: height * finaleScaleY
      };
    }
  }
  EditBox._EditBoxImpl = JsbEditBoxImpl;
})();

},{}],6:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 http://www.cocos.com

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

// @ts-expect-error jsb polyfills
(function () {
  if (!globalThis.middleware) return;
  const middleware = globalThis.middleware;
  const middlewareMgr = middleware.MiddlewareManager.getInstance();
  let reference = 0;
  const director = cc.director;
  const game = cc.game;
  middleware.reset = function () {
    middleware.preRenderComponent = null;
    middleware.preRenderBufferIndex = 0;
    middleware.indicesStart = 0;
    middleware.resetIndicesStart = false;
  };
  middleware.reset();
  middleware.retain = function () {
    reference++;
  };
  middleware.release = function () {
    if (reference === 0) {
      cc.warn('middleware reference error: reference count should be greater than 0');
      return;
    }
    reference--;
  };
  director.on(cc.Director.EVENT_BEFORE_UPDATE, () => {
    if (reference === 0) return;
    middlewareMgr.update(game.deltaTime);
  });
  director.on(cc.Director.EVENT_BEFORE_DRAW, () => {
    if (reference === 0) return;
    middlewareMgr.render(game.deltaTime);

    // reset render order
    middleware.reset();

    //const batcher2D = director.root.batcher2D;
    if (globalThis.dragonBones) {
      const armaSystem = cc.internal.ArmatureSystem.getInstance();
      armaSystem.prepareRenderData();
    }
    if (globalThis.spine) {
      const skeletonSystem = cc.internal.SpineSkeletonSystem.getInstance();
      skeletonSystem.prepareRenderData();
    }
  });
  const attachInfoMgr = middlewareMgr.getAttachInfoMgr();
  attachInfoMgr.attachInfo = attachInfoMgr.getSharedBuffer();
  attachInfoMgr.setResizeCallback(function () {
    this.attachInfo = this.getSharedBuffer();
  });
  middleware.attachInfoMgr = attachInfoMgr;

  // generate get set function
  middleware.generateGetSet = function (moduleObj) {
    for (const classKey in moduleObj) {
      const classProto = moduleObj[classKey] && moduleObj[classKey].prototype;
      if (!classProto) continue;
      for (const getName in classProto) {
        const getPos = getName.search(/^get/);
        if (getPos === -1) continue;
        let propName = getName.replace(/^get/, '');
        const nameArr = propName.split('');
        const lowerFirst = nameArr[0].toLowerCase();
        const upperFirst = nameArr[0].toUpperCase();
        nameArr.splice(0, 1);
        const left = nameArr.join('');
        propName = lowerFirst + left;
        const setName = `set${upperFirst}${left}`;
        // eslint-disable-next-line no-prototype-builtins
        if (classProto.hasOwnProperty(propName)) continue;
        const setFunc = classProto[setName];
        const hasSetFunc = typeof setFunc === 'function';
        if (hasSetFunc) {
          Object.defineProperty(classProto, propName, {
            get() {
              return this[getName]();
            },
            set(val) {
              this[setName](val);
            },
            configurable: true
          });
        } else {
          Object.defineProperty(classProto, propName, {
            get() {
              return this[getName]();
            },
            configurable: true
          });
        }
      }
    }
  };
})();

},{}],7:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2017-2020 Xiamen Yaji Software Co., Ltd.
 https://www.cocos.com/
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of fsUtils software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.
 The software or tools in fsUtils License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.
 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

const fs = jsb.fileUtils;
let jsb_downloader = null;
const downloading = new cc.AssetManager.Cache();
let tempDir = '';
jsb.Downloader.prototype._ctor = function () {
  this.__nativeRefs = {};
};
const fsUtils = {
  fs,
  initJsbDownloader(jsbDownloaderMaxTasks, jsbDownloaderTimeout) {
    jsb_downloader = new jsb.Downloader({
      countOfMaxProcessingTasks: jsbDownloaderMaxTasks || 32,
      timeoutInSeconds: jsbDownloaderTimeout || 30,
      tempFileNameSuffix: '.tmp'
    });
    tempDir = `${fsUtils.getUserDataPath()}/temp`;
    !fs.isDirectoryExist(tempDir) && fs.createDirectory(tempDir);
    jsb_downloader.onSuccess = task => {
      if (!downloading.has(task.requestURL)) return;
      const {
        onComplete
      } = downloading.remove(task.requestURL);
      onComplete && onComplete(null, task.storagePath);
    };
    jsb_downloader.onError = (task, errorCode, errorCodeInternal, errorStr) => {
      if (!downloading.has(task.requestURL)) return;
      const {
        onComplete
      } = downloading.remove(task.requestURL);
      cc.error(`Download file failed: path: ${task.requestURL} message: ${errorStr}, ${errorCode}`);
      onComplete(new Error(errorStr), null);
    };
    jsb_downloader.onProgress = (task, bytesReceived, totalBytesReceived, totalBytesExpected) => {
      if (!downloading.has(task.requestURL)) return;
      const {
        onProgress
      } = downloading.get(task.requestURL);
      onProgress && onProgress(totalBytesReceived, totalBytesExpected);
    };
  },
  getUserDataPath() {
    return fs.getWritablePath().replace(/[\/\\]*$/, '');
  },
  checkFsValid() {
    if (!fs) {
      cc.warn('can not get the file system!');
      return false;
    }
    return true;
  },
  deleteFile(filePath, onComplete) {
    const result = fs.removeFile(filePath);
    if (result === true) {
      onComplete && onComplete(null);
    } else {
      cc.warn(`Delete file failed: path: ${filePath}`);
      onComplete && onComplete(new Error('delete file failed'));
    }
  },
  downloadFile(remoteUrl, filePath, header, onProgress, onComplete) {
    downloading.add(remoteUrl, {
      onProgress,
      onComplete
    });
    let storagePath = filePath;
    if (!storagePath) storagePath = `${tempDir}/${performance.now()}${cc.path.extname(remoteUrl)}`;
    jsb_downloader.createDownloadTask(remoteUrl, storagePath, header);
  },
  saveFile(srcPath, destPath, onComplete) {
    let err = null;
    const result = fs.writeDataToFile(fs.getDataFromFile(srcPath), destPath);
    fs.removeFile(srcPath);
    if (!result) {
      err = new Error(`Save file failed: path: ${srcPath}`);
      cc.warn(err.message);
    }
    onComplete && onComplete(err);
  },
  copyFile(srcPath, destPath, onComplete) {
    let err = null;
    const result = fs.writeDataToFile(fs.getDataFromFile(srcPath), destPath);
    if (!result) {
      err = new Error(`Copy file failed: path: ${srcPath}`);
      cc.warn(err.message);
    }
    onComplete && onComplete(err);
  },
  writeFile(path, data, encoding, onComplete) {
    let result = null;
    let err = null;
    if (encoding === 'utf-8' || encoding === 'utf8') {
      result = fs.writeStringToFile(data, path);
    } else {
      result = fs.writeDataToFile(data, path);
    }
    if (!result) {
      err = new Error(`Write file failed: path: ${path}`);
      cc.warn(err.message);
    }
    onComplete && onComplete(err);
  },
  writeFileSync(path, data, encoding) {
    let result = null;
    if (encoding === 'utf-8' || encoding === 'utf8') {
      result = fs.writeStringToFile(data, path);
    } else {
      result = fs.writeDataToFile(data, path);
    }
    if (!result) {
      cc.warn(`Write file failed: path: ${path}`);
      return new Error(`Write file failed: path: ${path}`);
    }
  },
  readFile(filePath, encoding, onComplete) {
    let content = null;
    let err = null;
    if (encoding === 'utf-8' || encoding === 'utf8') {
      content = fs.getStringFromFile(filePath);
    } else {
      content = fs.getDataFromFile(filePath);
    }
    if (!content) {
      err = new Error(`Read file failed: path: ${filePath}`);
      cc.warn(err.message);
    }
    onComplete && onComplete(err, content);
  },
  readDir(filePath, onComplete) {
    let files = null;
    let err = null;
    try {
      files = fs.listFiles(filePath);
    } catch (e) {
      cc.warn(`Read dir failed: path: ${filePath} message: ${e.message}`);
      err = new Error(e.message);
    }
    onComplete && onComplete(err, files);
  },
  readText(filePath, onComplete) {
    fsUtils.readFile(filePath, 'utf8', onComplete);
  },
  readArrayBuffer(filePath, onComplete) {
    fsUtils.readFile(filePath, '', onComplete);
  },
  readJson(filePath, onComplete) {
    fsUtils.readFile(filePath, 'utf8', (err, text) => {
      let out = null;
      if (!err) {
        try {
          out = JSON.parse(text);
        } catch (e) {
          cc.warn(`Read json failed: path: ${filePath} message: ${e.message}`);
          err = new Error(e.message);
        }
      }
      onComplete && onComplete(err, out);
    });
  },
  readJsonSync(path) {
    try {
      const str = fs.getStringFromFile(path);
      return JSON.parse(str);
    } catch (e) {
      cc.warn(`Read json failed: path: ${path} message: ${e.message}`);
      return new Error(e.message);
    }
  },
  makeDirSync(path, recursive) {
    const result = fs.createDirectory(path);
    if (!result) {
      cc.warn(`Make directory failed: path: ${path}`);
      return new Error(`Make directory failed: path: ${path}`);
    }
  },
  rmdirSync(dirPath, recursive) {
    const result = fs.removeDirectory(dirPath);
    if (!result) {
      cc.warn(`rm directory failed: path: ${dirPath}`);
      return new Error(`rm directory failed: path: ${dirPath}`);
    }
  },
  exists(filePath, onComplete) {
    const result = fs.isFileExist(filePath);
    onComplete && onComplete(result);
  },
  loadSubpackage(name, onProgress, onComplete) {
    throw new Error('not implement');
  }
};
globalThis.fsUtils = module.exports = fsUtils;

},{}],8:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

cc.game.restart = function () {
  // Need to clear scene, or native object destructor won't be invoke.
  cc.director.getScene().destroy();
  cc.Object._deferredDestroy();
  __restartVM();
};
jsb.onError(function (location, message, stack) {
  console.error(location, message, stack);
});
jsb.onMemoryWarning = function () {
  cc.game.emit(cc.Game.EVENT_LOW_MEMORY);
};

},{}],9:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2020 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

/* global gfx */

const deviceProto = gfx.Device.prototype;
const swapchainProto = gfx.Swapchain.prototype;
const bufferProto = gfx.Buffer.prototype;
const textureProto = gfx.Texture.prototype;
const descriptorSetProto = gfx.DescriptorSet.prototype;
const jsbWindow = require('../jsbWindow');
///////////////////////////// handle different paradigms /////////////////////////////

const oldCopyTexImagesToTextureFunc = deviceProto.copyTexImagesToTexture;
deviceProto.copyTexImagesToTexture = function (texImages, texture, regions) {
  const images = [];
  if (texImages) {
    for (let i = 0; i < texImages.length; ++i) {
      const texImage = texImages[i];
      if (texImage instanceof jsbWindow.HTMLCanvasElement) {
        // Refer to HTMLCanvasElement and ImageData implementation
        images.push(texImage._data.data);
      } else if (texImage instanceof jsbWindow.HTMLImageElement) {
        // Refer to HTMLImageElement implementation
        images.push(texImage._data);
      } else {
        console.log('copyTexImagesToTexture: Convert texImages to data buffers failed');
        return;
      }
    }
  }
  oldCopyTexImagesToTextureFunc.call(this, images, texture, regions);
};
const oldDeviceCreateSwapchainFunc = deviceProto.createSwapchain;
deviceProto.createSwapchain = function (info) {
  info.windowHandle = jsbWindow.windowHandle;
  return oldDeviceCreateSwapchainFunc.call(this, info);
};
const oldSwapchainInitializeFunc = swapchainProto.initialize;
swapchainProto.initialize = function (info) {
  info.windowHandle = jsbWindow.windowHandler;
  oldSwapchainInitializeFunc.call(this, info);
};
const oldUpdate = bufferProto.update;
bufferProto.update = function (buffer, size) {
  if (buffer.byteLength === 0) return;
  let buffSize;
  if (this.cachedUsage & 0x40) {
    // BufferUsageBit.INDIRECT
    // It is a IIndirectBuffer object.
    const {
      drawInfos
    } = buffer;
    buffer = new Uint32Array(drawInfos.length * 7);
    let baseIndex = 0;
    let drawInfo;
    for (let i = 0; i < drawInfos.length; ++i) {
      baseIndex = i * 7;
      drawInfo = drawInfos[i];
      buffer[baseIndex] = drawInfo.vertexCount;
      buffer[baseIndex + 1] = drawInfo.firstVertex;
      buffer[baseIndex + 2] = drawInfo.indexCount;
      buffer[baseIndex + 3] = drawInfo.firstIndex;
      buffer[baseIndex + 4] = drawInfo.vertexOffset;
      buffer[baseIndex + 5] = drawInfo.instanceCount;
      buffer[baseIndex + 6] = drawInfo.firstInstance;
    }
    buffSize = buffer.byteLength;
  } else if (size !== undefined) {
    buffSize = size;
  } else {
    buffSize = buffer.byteLength;
  }
  oldUpdate.call(this, buffer, buffSize);
};
const oldDeviceCreateBufferFun = deviceProto.createBuffer;
deviceProto.createBuffer = function (info) {
  let buffer;
  if (info.buffer) {
    buffer = oldDeviceCreateBufferFun.call(this, info, true);
  } else {
    buffer = oldDeviceCreateBufferFun.call(this, info, false);
  }
  buffer.cachedUsage = info.usage;
  return buffer;
};
const oldBufferInitializeFunc = bufferProto.initialize;
bufferProto.initialize = function (info) {
  if (info.buffer) {
    oldBufferInitializeFunc.call(this, info, true);
  } else {
    oldBufferInitializeFunc.call(this, info, false);
  }
};
const oldDeviceCreateTextureFun = deviceProto.createTexture;
deviceProto.createTexture = function (info) {
  if (info.texture) {
    return oldDeviceCreateTextureFun.call(this, info, true);
  }
  return oldDeviceCreateTextureFun.call(this, info, false);
};
const oldTextureInitializeFunc = textureProto.initialize;
textureProto.initialize = function (info) {
  if (info.texture) {
    oldTextureInitializeFunc.call(this, info, true);
  } else {
    oldTextureInitializeFunc.call(this, info, false);
  }
};

///////////////////////////// optimizations /////////////////////////////

// Cache dirty to avoid invoking gfx.DescriptorSet.update().
descriptorSetProto.bindBuffer = function (binding, buffer, index) {
  this.dirtyJSB = descriptorSetProto.bindBufferJSB.call(this, binding, buffer, index || 0);
};
descriptorSetProto.bindSampler = function (binding, sampler, index) {
  this.dirtyJSB = descriptorSetProto.bindSamplerJSB.call(this, binding, sampler, index || 0);
};
descriptorSetProto.bindTexture = function (bindding, texture, index, flags) {
  this.dirtyJSB = descriptorSetProto.bindTextureJSB.call(this, bindding, texture, index || 0, flags || 0);
};
const oldDSUpdate = descriptorSetProto.update;
descriptorSetProto.update = function () {
  if (!this.dirtyJSB) return;
  oldDSUpdate.call(this);
  this.dirtyJSB = false;
};
Object.defineProperty(deviceProto, 'uboOffsetAlignment', {
  get() {
    if (this.cachedUboOffsetAlignment === undefined) {
      this.cachedUboOffsetAlignment = this.getUboOffsetAlignment();
    }
    return this.cachedUboOffsetAlignment;
  }
});

},{"../jsbWindow":16}],10:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2013-2016 Chukong Technologies Inc.
 Copyright (c) 2017-2020 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and  non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

const jsbWindow = require('../jsbWindow');
const cacheManager = require('./jsb-cache-manager');
const {
  downloadFile,
  readText,
  readArrayBuffer,
  readJson,
  getUserDataPath,
  initJsbDownloader
} = require('./jsb-fs-utils');
const REGEX = /^\w+:\/\/.*/;
const downloader = cc.assetManager.downloader;
const parser = cc.assetManager.parser;
const presets = cc.assetManager.presets;
downloader.maxConcurrency = 30;
downloader.maxRequestsPerFrame = 60;
presets.preload.maxConcurrency = 15;
presets.preload.maxRequestsPerFrame = 30;
presets.scene.maxConcurrency = 32;
presets.scene.maxRequestsPerFrame = 64;
presets.bundle.maxConcurrency = 32;
presets.bundle.maxRequestsPerFrame = 64;
let suffix = 0;
const failureMap = {};
const maxRetryCountFromBreakpoint = 5;
const loadedScripts = {};
function downloadScript(url, options, onComplete) {
  if (typeof options === 'function') {
    onComplete = options;
    options = null;
  }
  if (loadedScripts[url]) return onComplete && onComplete();
  download(url, (src, options, onComplete) => {
    if (window.oh && window.scriptEngineType === 'napi') {
      // TODO(qgh):OpenHarmony does not currently support dynamic require expressions
      window.oh.loadModule(src);
    } else if (__EDITOR__) {
      // in editor mode,require is from electron,__require is from engine
      globalThis.__require(src);
    } else {
      globalThis.require(src);
    }
    loadedScripts[url] = true;
    onComplete && onComplete(null);
  }, options, options.onFileProgress, onComplete);
}
function download(url, func, options, onFileProgress, onComplete) {
  const result = transformUrl(url, options);
  if (result.inLocal) {
    func(result.url, options, onComplete);
  } else if (result.inCache) {
    cacheManager.updateLastTime(url);
    func(result.url, options, (err, data) => {
      if (err) {
        cacheManager.removeCache(url);
      }
      onComplete(err, data);
    });
  } else {
    const time = Date.now();
    let storagePath = '';
    const failureRecord = failureMap[url];
    if (failureRecord) {
      storagePath = failureRecord.storagePath;
    } else if (options.__cacheBundleRoot__) {
      storagePath = `${options.__cacheBundleRoot__}/${time}${suffix++}${cc.path.extname(url)}`;
    } else {
      storagePath = `${time}${suffix++}${cc.path.extname(url)}`;
    }
    downloadFile(url, `${cacheManager.cacheDir}/${storagePath}`, options.header, onFileProgress, (err, path) => {
      if (err) {
        if (failureRecord) {
          failureRecord.retryCount++;
          if (failureRecord.retryCount >= maxRetryCountFromBreakpoint) {
            delete failureMap[url];
          }
        } else {
          failureMap[url] = {
            retryCount: 0,
            storagePath
          };
        }
        onComplete(err, null);
        return;
      }
      delete failureMap[url];
      func(path, options, (err, data) => {
        if (!err) {
          cacheManager.cacheFile(url, storagePath, options.__cacheBundleRoot__);
        }
        onComplete(err, data);
      });
    });
  }
}
function transformUrl(url, options) {
  let inLocal = false;
  let inCache = false;
  if (REGEX.test(url) && !url.startsWith('file://')) {
    if (options.reload) {
      return {
        url
      };
    } else {
      const cache = cacheManager.getCache(url);
      if (cache) {
        inCache = true;
        url = cache;
      }
    }
  } else {
    inLocal = true;
    if (url.startsWith('file://')) {
      url = url.replace(/^file:\/\//, '');
    }
  }
  return {
    url,
    inLocal,
    inCache
  };
}
function doNothing(content, options, onComplete) {
  onComplete(null, content);
}
function downloadAsset(url, options, onComplete) {
  download(url, doNothing, options, options.onFileProgress, onComplete);
}
function _getFontFamily(fontHandle) {
  const ttfIndex = fontHandle.lastIndexOf('.ttf');
  if (ttfIndex === -1) return fontHandle;
  const slashPos = fontHandle.lastIndexOf('/');
  let fontFamilyName;
  if (slashPos === -1) {
    fontFamilyName = `${fontHandle.substring(0, ttfIndex)}_LABEL`;
  } else {
    fontFamilyName = `${fontHandle.substring(slashPos + 1, ttfIndex)}_LABEL`;
  }
  if (fontFamilyName.indexOf(' ') !== -1) {
    fontFamilyName = `"${fontFamilyName}"`;
  }
  return fontFamilyName;
}
function parseText(url, options, onComplete) {
  readText(url, onComplete);
}
function parseJson(url, options, onComplete) {
  readJson(url, onComplete);
}
function downloadText(url, options, onComplete) {
  download(url, parseText, options, options.onFileProgress, onComplete);
}
function parseArrayBuffer(url, options, onComplete) {
  readArrayBuffer(url, onComplete);
}
function downloadJson(url, options, onComplete) {
  download(url, parseJson, options, options.onFileProgress, onComplete);
}
function downloadBundle(nameOrUrl, options, onComplete) {
  const bundleName = cc.path.basename(nameOrUrl);
  const version = options.version || downloader.bundleVers[bundleName];
  let url;
  if (REGEX.test(nameOrUrl) || nameOrUrl.startsWith(getUserDataPath())) {
    url = nameOrUrl;
    cacheManager.makeBundleFolder(bundleName);
  } else if (downloader.remoteBundles.indexOf(bundleName) !== -1) {
    url = `${downloader.remoteServerAddress}remote/${bundleName}`;
    cacheManager.makeBundleFolder(bundleName);
  } else {
    url = `assets/${bundleName}`;
  }
  const config = `${url}/cc.config.${version ? `${version}.` : ''}json`;
  options.__cacheBundleRoot__ = bundleName;
  downloadJson(config, options, (err, response) => {
    if (err) {
      return onComplete(err, null);
    }
    const out = response;
    out && (out.base = `${url}/`);
    if (out.hasPreloadScript) {
      const js = `${url}/index.${version ? `${version}.` : ''}${out.encrypted ? 'jsc' : `js`}`;
      downloadScript(js, options, err => {
        if (err) {
          return onComplete(err, null);
        }
        onComplete(null, out);
      });
    } else {
      onComplete(null, out);
    }
  });
}
function downloadArrayBuffer(url, options, onComplete) {
  download(url, parseArrayBuffer, options, options.onFileProgress, onComplete);
}
function loadFont(url, options, onComplete) {
  const fontFamilyName = _getFontFamily(url);
  const fontFace = new jsbWindow.FontFace(fontFamilyName, `url('${url}')`);
  jsbWindow.document.fonts.add(fontFace);
  fontFace.load();
  fontFace.loaded.then(() => {
    onComplete(null, fontFamilyName);
  }, () => {
    cc.warnID(4933, fontFamilyName);
    onComplete(null, fontFamilyName);
  });
}
const originParsePlist = parser.parsePlist;
const parsePlist = function (url, options, onComplete) {
  readText(url, (err, file) => {
    if (err) return onComplete(err);
    originParsePlist(file, options, onComplete);
  });
};
parser.parsePVRTex = downloader.downloadDomImage;
parser.parsePKMTex = downloader.downloadDomImage;
parser.parseASTCTex = downloader.downloadDomImage;
parser.parsePlist = parsePlist;
downloader.downloadScript = downloadScript;
downloader._downloadArrayBuffer = downloadArrayBuffer;
downloader._downloadJson = downloadJson;
function loadAudioPlayer(url, options, onComplete) {
  cc.AudioPlayer.load(url).then(player => {
    const audioMeta = {
      player,
      url,
      duration: player.duration,
      type: player.type
    };
    onComplete(null, audioMeta);
  }).catch(err => {
    onComplete(err);
  });
}
downloader.register({
  // JS
  '.js': downloadScript,
  '.jsc': downloadScript,
  // Images
  '.png': downloadAsset,
  '.jpg': downloadAsset,
  '.bmp': downloadAsset,
  '.jpeg': downloadAsset,
  '.gif': downloadAsset,
  '.ico': downloadAsset,
  '.tiff': downloadAsset,
  '.webp': downloadAsset,
  '.image': downloadAsset,
  '.pvr': downloadAsset,
  '.pkm': downloadAsset,
  '.astc': downloadAsset,
  // Audio
  '.mp3': downloadAsset,
  '.ogg': downloadAsset,
  '.wav': downloadAsset,
  '.m4a': downloadAsset,
  // Video
  '.mp4': downloadAsset,
  '.avi': downloadAsset,
  '.mov': downloadAsset,
  '.mpg': downloadAsset,
  '.mpeg': downloadAsset,
  '.rm': downloadAsset,
  '.rmvb': downloadAsset,
  // Text
  '.txt': downloadAsset,
  '.xml': downloadAsset,
  '.vsh': downloadAsset,
  '.fsh': downloadAsset,
  '.atlas': downloadAsset,
  '.tmx': downloadAsset,
  '.tsx': downloadAsset,
  '.fnt': downloadAsset,
  '.plist': downloadAsset,
  '.json': downloadJson,
  '.ExportJson': downloadAsset,
  '.binary': downloadAsset,
  '.bin': downloadAsset,
  '.dbbin': downloadAsset,
  '.skel': downloadAsset,
  // Font
  '.font': downloadAsset,
  '.eot': downloadAsset,
  '.ttf': downloadAsset,
  '.woff': downloadAsset,
  '.svg': downloadAsset,
  '.ttc': downloadAsset,
  bundle: downloadBundle,
  default: downloadText
});
parser.register({
  // Images
  '.png': downloader.downloadDomImage,
  '.jpg': downloader.downloadDomImage,
  '.bmp': downloader.downloadDomImage,
  '.jpeg': downloader.downloadDomImage,
  '.gif': downloader.downloadDomImage,
  '.ico': downloader.downloadDomImage,
  '.tiff': downloader.downloadDomImage,
  '.webp': downloader.downloadDomImage,
  '.image': downloader.downloadDomImage,
  // Audio
  '.mp3': loadAudioPlayer,
  '.ogg': loadAudioPlayer,
  '.wav': loadAudioPlayer,
  '.m4a': loadAudioPlayer,
  // compressed texture
  '.pvr': downloader.downloadDomImage,
  '.pkm': downloader.downloadDomImage,
  '.astc': downloader.downloadDomImage,
  '.binary': parseArrayBuffer,
  '.bin': parseArrayBuffer,
  '.dbbin': parseArrayBuffer,
  '.skel': parseArrayBuffer,
  // Text
  '.txt': parseText,
  '.xml': parseText,
  '.vsh': parseText,
  '.fsh': parseText,
  '.atlas': parseText,
  '.tmx': parseText,
  '.tsx': parseText,
  '.fnt': parseText,
  '.plist': parsePlist,
  // Font
  '.font': loadFont,
  '.eot': loadFont,
  '.ttf': loadFont,
  '.woff': loadFont,
  '.svg': loadFont,
  '.ttc': loadFont,
  '.ExportJson': parseJson
});
if (CC_BUILD) {
  cc.assetManager.transformPipeline.append(task => {
    const input = task.output = task.input;
    for (let i = 0, l = input.length; i < l; i++) {
      const item = input[i];
      if (item.config) {
        item.options.__cacheBundleRoot__ = item.config.name;
      }
      if (item.ext === '.cconb') {
        item.url = item.url.replace(item.ext, '.bin');
      } else if (item.ext === '.ccon') {
        item.url = item.url.replace(item.ext, '.json');
      }
    }
  });
}
const originInit = cc.assetManager.init;
cc.assetManager.init = function (options) {
  originInit.call(cc.assetManager, options);
  const jsbDownloaderMaxTasks = cc.settings.querySettings('assets', 'jsbDownloaderMaxTasks');
  const jsbDownloaderTimeout = cc.settings.querySettings('assets', 'jsbDownloaderTimeout');
  initJsbDownloader(jsbDownloaderMaxTasks, jsbDownloaderTimeout);
  cacheManager.init();
};

},{"../jsbWindow":16,"./jsb-cache-manager":3,"./jsb-fs-utils":7}],11:[function(require,module,exports){
"use strict";

const jsbPhy = globalThis['jsb.physics'];
jsbPhy.CACHE = {
  trimesh: {},
  convex: {},
  height: {},
  material: {}
};
jsbPhy.OBJECT = {
  books: [],
  ptrToObj: {},
  raycastOptions: {
    origin: null,
    unitDir: null,
    distance: 0,
    mask: 0,
    queryTrigger: true
  }
};
jsbPhy.CONFIG = {
  heightScale: 1 / 512
};
const books = jsbPhy.OBJECT.books;
const ptrToObj = jsbPhy.OBJECT.ptrToObj;
const raycastOptions = jsbPhy.OBJECT.raycastOptions;
const TriggerEventObject = {
  type: 'onTriggerEnter',
  selfCollider: null,
  otherCollider: null,
  impl: null
};
const CollisionEventObject = {
  type: 'onCollisionEnter',
  selfCollider: null,
  otherCollider: null,
  contacts: [],
  impl: null
};
const CCTShapeEventObject = {
  type: 'onControllerColliderHit',
  controller: null,
  collider: null,
  worldPosition: null,
  worldNormal: null,
  motionDirection: null,
  motionLength: 0
};
const CharacterTriggerEventObject = {
  type: 'onControllerTriggerEnter',
  characterController: null,
  collider: null,
  impl: null
};
function emitTriggerEvent(t, c0, c1, impl) {
  TriggerEventObject.type = t;
  TriggerEventObject.impl = impl;
  if (c0.needTriggerEvent) {
    TriggerEventObject.selfCollider = c0;
    TriggerEventObject.otherCollider = c1;
    c0.emit(t, TriggerEventObject);
  }
  if (c1.needTriggerEvent) {
    TriggerEventObject.selfCollider = c1;
    TriggerEventObject.otherCollider = c0;
    c1.emit(t, TriggerEventObject);
  }
}
function emitCCTTriggerEvent(t, cct, collider, impl) {
  CharacterTriggerEventObject.type = t;
  CharacterTriggerEventObject.impl = impl;
  CharacterTriggerEventObject.characterController = cct;
  CharacterTriggerEventObject.collider = collider;
  if (collider.needTriggerEvent) {
    collider.emit(t, CharacterTriggerEventObject);
  }
  if (cct.needTriggerEvent) {
    cct.emit(t, CharacterTriggerEventObject);
  }
}
const quat = new cc.Quat();
const contactsPool = [];
const contactBufferElementLength = 12;
class ContactPoint {
  constructor(e) {
    this.event = e;
    this.impl = null;
    this.colliderA = null;
    this.colliderB = null;
    this.index = 0;
  }
  get isBodyA() {
    return this.colliderA.uuid === this.event.selfCollider.uuid;
  }
  getLocalPointOnA(o) {
    this.getWorldPointOnB(o);
    cc.Vec3.subtract(o, o, this.colliderA.node.worldPosition);
  }
  getLocalPointOnB(o) {
    this.getWorldPointOnB(o);
    cc.Vec3.subtract(o, o, this.colliderB.node.worldPosition);
  }
  getWorldPointOnA(o) {
    this.getWorldPointOnB(o);
  }
  getWorldPointOnB(o) {
    const i = this.index * contactBufferElementLength;
    o.x = this.impl[i];
    o.y = this.impl[i + 1];
    o.z = this.impl[i + 2];
  }
  getLocalNormalOnA(o) {
    this.getWorldNormalOnA(o);
    cc.Quat.conjugate(quat, this.colliderA.node.worldRotation);
    cc.Vec3.transformQuat(o, o, quat);
  }
  getLocalNormalOnB(o) {
    this.getWorldNormalOnB(o);
    cc.Quat.conjugate(quat, this.colliderB.node.worldRotation);
    cc.Vec3.transformQuat(out, out, quat);
  }
  getWorldNormalOnA(o) {
    this.getWorldNormalOnB(o);
    if (!this.isBodyA) cc.Vec3.negate(o, o);
  }
  getWorldNormalOnB(o) {
    const i = this.index * contactBufferElementLength + 3;
    o.x = this.impl[i];
    o.y = this.impl[i + 1];
    o.z = this.impl[i + 2];
  }
}
function emitCollisionEvent(t, c0, c1, impl, b) {
  CollisionEventObject.type = t;
  CollisionEventObject.impl = impl;
  const contacts = CollisionEventObject.contacts;
  contactsPool.push.apply(contactsPool, contacts);
  contacts.length = 0;
  const contactCount = b.length / contactBufferElementLength;
  for (let i = 0; i < contactCount; i++) {
    const c = contactsPool.length > 0 ? contactsPool.pop() : new ContactPoint(CollisionEventObject);
    c.colliderA = c0;
    c.colliderB = c1;
    c.impl = b;
    c.index = i;
    contacts.push(c);
  }
  if (c0.needCollisionEvent) {
    CollisionEventObject.selfCollider = c0;
    CollisionEventObject.otherCollider = c1;
    c0.emit(t, CollisionEventObject);
  }
  if (c1.needCollisionEvent) {
    CollisionEventObject.selfCollider = c1;
    CollisionEventObject.otherCollider = c0;
    c1.emit(t, CollisionEventObject);
  }
}
function emitCCTCollisionEvent(t, cct, collider, b) {
  CCTShapeEventObject.type = t;
  const contactCount = b.length / 10;
  CCTShapeEventObject.worldPosition = new cc.Vec3(b[0], b[1], b[2]);
  CCTShapeEventObject.worldNormal = new cc.Vec3(b[3], b[4], b[5]);
  CCTShapeEventObject.motionDirection = new cc.Vec3(b[6], b[7], b[8]);
  CCTShapeEventObject.motionLength = b[9];
  CCTShapeEventObject.controller = cct;
  CCTShapeEventObject.collider = collider;
  cct.emit(t, CCTShapeEventObject);
}
class PhysicsWorld {
  get impl() {
    return this._impl;
  }
  constructor() {
    this._impl = new jsbPhy.World();
  }
  setGravity(v) {
    this._impl.setGravity(v.x, v.y, v.z);
  }
  setAllowSleep(v) {
    this._impl.setAllowSleep(v);
  }
  setDefaultMaterial(v) {}
  step(f, t, m) {
    // books.forEach((v) => { v.syncToNativeTransform(); });
    this._impl.step(f);
  }
  set debugDrawFlags(v) {
    this._impl.setDebugDrawFlags(v);
  }
  get debugDrawFlags() {
    return this._impl.getDebugDrawFlags();
  }
  set debugDrawConstraintSize(v) {
    this._impl.setDebugDrawConstraintSize(v);
  }
  get debugDrawConstraintSize() {
    return this._impl.getDebugDrawConstraintSize();
  }
  raycast(r, o, p, rs) {
    raycastOptions.origin = r.o;
    raycastOptions.unitDir = r.d;
    raycastOptions.mask = o.mask >>> 0;
    raycastOptions.distance = o.maxDistance;
    raycastOptions.queryTrigger = !!o.queryTrigger;
    const isHit = this._impl.raycast(raycastOptions);
    if (isHit) {
      const hits = this._impl.raycastResult();
      for (let i = 0; i < hits.length; i++) {
        const hit = hits[i];
        const out = p.add();
        out._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
        rs.push(out);
      }
    }
    return isHit;
  }
  raycastClosest(r, o, out) {
    raycastOptions.origin = r.o;
    raycastOptions.unitDir = r.d;
    raycastOptions.mask = o.mask >>> 0;
    raycastOptions.distance = o.maxDistance;
    raycastOptions.queryTrigger = !!o.queryTrigger;
    const isHit = this._impl.raycastClosest(raycastOptions);
    if (isHit) {
      const hit = this._impl.raycastClosestResult();
      out._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
    }
    return isHit;
  }
  sweepBox(worldRay, halfExtent, orientation, options, pool, results) {
    raycastOptions.origin = worldRay.o;
    raycastOptions.unitDir = worldRay.d;
    raycastOptions.mask = options.mask >>> 0;
    raycastOptions.distance = options.maxDistance;
    raycastOptions.queryTrigger = !!options.queryTrigger;
    const isHit = this._impl.sweepBox(raycastOptions, halfExtent.x, halfExtent.y, halfExtent.z, orientation.w, orientation.x, orientation.y, orientation.z);
    if (isHit) {
      const hits = this._impl.sweepResult();
      for (let i = 0; i < hits.length; i++) {
        const hit = hits[i];
        const out = pool.add();
        out._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
        results.push(out);
      }
    }
    return isHit;
  }
  sweepBoxClosest(worldRay, halfExtent, orientation, options, result) {
    raycastOptions.origin = worldRay.o;
    raycastOptions.unitDir = worldRay.d;
    raycastOptions.mask = options.mask >>> 0;
    raycastOptions.distance = options.maxDistance;
    raycastOptions.queryTrigger = !!options.queryTrigger;
    const isHit = this._impl.sweepBoxClosest(raycastOptions, halfExtent.x, halfExtent.y, halfExtent.z, orientation.w, orientation.x, orientation.y, orientation.z);
    if (isHit) {
      const hit = this._impl.sweepClosestResult();
      result._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
    }
    return isHit;
  }
  sweepSphere(worldRay, radius, options, pool, results) {
    raycastOptions.origin = worldRay.o;
    raycastOptions.unitDir = worldRay.d;
    raycastOptions.mask = options.mask >>> 0;
    raycastOptions.distance = options.maxDistance;
    raycastOptions.queryTrigger = !!options.queryTrigger;
    const isHit = this._impl.sweepSphere(raycastOptions, radius);
    if (isHit) {
      const hits = this._impl.sweepResult();
      for (let i = 0; i < hits.length; i++) {
        const hit = hits[i];
        const out = pool.add();
        out._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
        results.push(out);
      }
    }
    return isHit;
  }
  sweepSphereClosest(worldRay, radius, options, result) {
    raycastOptions.origin = worldRay.o;
    raycastOptions.unitDir = worldRay.d;
    raycastOptions.mask = options.mask >>> 0;
    raycastOptions.distance = options.maxDistance;
    raycastOptions.queryTrigger = !!options.queryTrigger;
    const isHit = this._impl.sweepSphereClosest(raycastOptions, radius);
    if (isHit) {
      const hit = this._impl.sweepClosestResult();
      result._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
    }
    return isHit;
  }
  sweepCapsule(worldRay, radius, height, orientation, options, pool, results) {
    raycastOptions.origin = worldRay.o;
    raycastOptions.unitDir = worldRay.d;
    raycastOptions.mask = options.mask >>> 0;
    raycastOptions.distance = options.maxDistance;
    raycastOptions.queryTrigger = !!options.queryTrigger;
    const isHit = this._impl.sweepCapsule(raycastOptions, radius, height, orientation.w, orientation.x, orientation.y, orientation.z);
    if (isHit) {
      const hits = this._impl.sweepResult();
      for (let i = 0; i < hits.length; i++) {
        const hit = hits[i];
        const out = pool.add();
        out._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
        results.push(out);
      }
    }
    return isHit;
  }
  sweepCapsuleClosest(worldRay, radius, height, orientation, options, result) {
    raycastOptions.origin = worldRay.o;
    raycastOptions.unitDir = worldRay.d;
    raycastOptions.mask = options.mask >>> 0;
    raycastOptions.distance = options.maxDistance;
    raycastOptions.queryTrigger = !!options.queryTrigger;
    const isHit = this._impl.sweepCapsuleClosest(raycastOptions, radius, height, orientation.w, orientation.x, orientation.y, orientation.z);
    if (isHit) {
      const hit = this._impl.sweepClosestResult();
      result._assign(hit.hitPoint, hit.distance, ptrToObj[hit.shape].collider, hit.hitNormal);
    }
    return isHit;
  }
  emitEvents() {
    this.emitTriggerEvent();
    this.emitCollisionEvent();
    this.emitCCTCollisionEvent();
    this.emitCCTTriggerEvent();
    this._impl.emitEvents();
  }
  syncSceneToPhysics() {
    this._impl.syncSceneToPhysics();
  }
  syncAfterEvents() {
    // this._impl.syncSceneToPhysics()
  }
  destroy() {
    this._impl.destroy();
  }
  emitTriggerEvent() {
    const teps = this._impl.getTriggerEventPairs();
    const len = teps.length / 3;
    for (let i = 0; i < len; i++) {
      const t = i * 3;
      const sa = ptrToObj[teps[t + 0]];
      const sb = ptrToObj[teps[t + 1]];
      if (!sa || !sb) continue;
      const c0 = sa.collider;
      const c1 = sb.collider;
      if (!(c0 && c0.isValid && c1 && c1.isValid)) continue;
      if (!c0.needTriggerEvent && !c1.needTriggerEvent) continue;
      const state = teps[t + 2];
      if (state === 1) {
        emitTriggerEvent('onTriggerStay', c0, c1, teps);
      } else if (state === 0) {
        emitTriggerEvent('onTriggerEnter', c0, c1, teps);
      } else {
        emitTriggerEvent('onTriggerExit', c0, c1, teps);
      }
    }
  }
  emitCollisionEvent() {
    const ceps = this._impl.getContactEventPairs();
    const len2 = ceps.length / 4;
    for (let i = 0; i < len2; i++) {
      const t = i * 4;
      const sa = ptrToObj[ceps[t + 0]];
      const sb = ptrToObj[ceps[t + 1]];
      if (!sa || !sb) continue;
      const c0 = sa.collider;
      const c1 = sb.collider;
      if (!(c0 && c0.isValid && c1 && c1.isValid)) continue;
      if (!c0.needCollisionEvent && !c1.needCollisionEvent) continue;
      const state = ceps[t + 2];
      if (state === 1) {
        emitCollisionEvent('onCollisionStay', c0, c1, ceps, ceps[t + 3]);
      } else if (state === 0) {
        emitCollisionEvent('onCollisionEnter', c0, c1, ceps, ceps[t + 3]);
      } else {
        emitCollisionEvent('onCollisionExit', c0, c1, ceps, ceps[t + 3]);
      }
    }
  }
  emitCCTCollisionEvent() {
    const events = this._impl.getCCTShapeEventPairs();
    const len2 = events.length / 3;
    for (let i = 0; i < len2; i++) {
      const t = i * 3;
      const cct = ptrToObj[events[t + 0]];
      const shape = ptrToObj[events[t + 1]];
      if (!cct || !shape) continue;
      const c0 = cct.characterController;
      const c1 = shape.collider;
      if (!(c0 && c0.isValid && c1 && c1.isValid)) continue;
      emitCCTCollisionEvent('onControllerColliderHit', c0, c1, events[t + 2]);
    }
  }
  emitCCTTriggerEvent() {
    const teps = this._impl.getCCTTriggerEventPairs();
    const len = teps.length / 3;
    for (let i = 0; i < len; i++) {
      const t = i * 3;
      const sa = ptrToObj[teps[t + 0]];
      const sb = ptrToObj[teps[t + 1]];
      if (!sa || !sb) continue;
      const cct = sa.characterController;
      const collider = sb.collider;
      if (!(cct && cct.isValid && collider && collider.isValid)) continue;
      if (!collider.needTriggerEvent) continue;
      const state = teps[t + 2];
      if (state === 1) {
        emitCCTTriggerEvent('onControllerTriggerStay', cct, collider, teps);
      } else if (state === 0) {
        emitCCTTriggerEvent('onControllerTriggerEnter', cct, collider, teps);
      } else {
        emitCCTTriggerEvent('onControllerTriggerExit', cct, collider, teps);
      }
    }
  }
}
function bookNode(v) {
  if (v._physicsBookIndex === undefined) {
    v._physicsBookIndex = books.length;
    books.push(v);
  }
}
function unBookNode(v) {
  const index = v._physicsBookIndex;
  if (index !== undefined) {
    books[index] = books[books.length - 1];
    books[index]._physicsBookIndex = index;
    books.length -= 1;
    v._physicsBookIndex = undefined;
  }
}
function updateCollisionMatrix() {
  const phy = cc.PhysicsSystem.instance;
  const world = phy.physicsWorld.impl;
  const cm = phy.collisionMatrix;
  if (cm.updateArray && cm.updateArray.length > 0) {
    cm.updateArray.forEach(e => {
      const key = `${1 << e}`;
      const mask = cm[key];
      world.setCollisionMatrix(e, mask);
    });
    cm.updateArray.length = 0;
  }
}
class RigidBody {
  get impl() {
    return this._impl;
  }
  get rigidBody() {
    return this._com;
  }
  get isAwake() {
    return this._impl.isAwake();
  }
  get isSleepy() {
    return false;
  }
  get isSleeping() {
    return this._impl.isSleeping();
  }
  constructor() {
    updateCollisionMatrix();
    this._impl = new jsbPhy.RigidBody();
    this._isUsingCCD = false;
  }
  initialize(v) {
    v.node.updateWorldTransform();
    this._com = v;
    this._impl.initialize(v.node, v.type, v._group);
    bookNode(v.node);
    this._impl.setSleepThreshold(cc.PhysicsSystem.instance.sleepThreshold);
  }
  onEnable() {
    this.setType(this._com.type);
    this.setMass(this._com.mass);
    this.setAllowSleep(this._com.allowSleep);
    this.setLinearDamping(this._com.linearDamping);
    this.setAngularDamping(this._com.angularDamping);
    this.setLinearFactor(this._com.linearFactor);
    this.setAngularFactor(this._com.angularFactor);
    this.useGravity(this._com.useGravity);
    this._impl.onEnable();
  }
  onDisable() {
    this._impl.onDisable();
  }
  onDestroy() {
    unBookNode(this._com.node);
    this._impl.onDestroy();
  }
  setGroup(v) {
    this._impl.setGroup(v);
  }
  getGroup() {
    return this._impl.getGroup();
  }
  addGroup(v) {
    this.setGroup(this.getGroup() | v);
  }
  removeGroup(v) {
    this.setGroup(this.getGroup() & ~v);
  }
  setMask(v) {
    this._impl.setMask(v >>> 0);
  }
  getMask() {
    return this._impl.getMask();
  }
  addMask(v) {
    this.setMask(this.getMask() | v);
  }
  removeMask(v) {
    this.setMask(this.getMask() & ~v);
  }
  setType(v) {
    this._impl.setType(v);
  }
  setMass(v) {
    this._impl.setMass(v);
  }
  setAllowSleep(v) {
    this._impl.setAllowSleep(v);
  }
  setLinearDamping(v) {
    const dt = cc.PhysicsSystem.instance.fixedTimeStep;
    this._impl.setLinearDamping((1 - (1 - v) ** dt) / dt);
  }
  setAngularDamping(v) {
    const dt = cc.PhysicsSystem.instance.fixedTimeStep;
    this._impl.setAngularDamping((1 - (1 - v) ** dt) / dt);
  }
  isUsingCCD() {
    return this._isUsingCCD;
  }
  useCCD(v) {
    this._isUsingCCD = v;
    return this._impl.useCCD(v);
  }
  useGravity(v) {
    this._impl.useGravity(v);
  }
  setLinearFactor(v) {
    this._impl.setLinearFactor(v.x, v.y, v.z);
  }
  setAngularFactor(v) {
    this._impl.setAngularFactor(v.x, v.y, v.z);
  }
  wakeUp() {
    this._impl.wakeUp();
  }
  sleep() {
    this._impl.sleep();
  }
  clearState() {
    this._impl.clearState();
  }
  clearForces() {
    this._impl.clearForces();
  }
  clearVelocity() {
    this._impl.clearVelocity();
  }
  setSleepThreshold(v) {
    this._impl.setSleepThreshold(v);
  }
  getSleepThreshold() {
    return this._impl.getSleepThreshold();
  }
  getLinearVelocity(o) {
    o.set(this._impl.getLinearVelocity());
  }
  setLinearVelocity(v) {
    this._impl.setLinearVelocity(v.x, v.y, v.z);
  }
  getAngularVelocity(o) {
    o.set(this._impl.getAngularVelocity());
  }
  setAngularVelocity(v) {
    this._impl.setAngularVelocity(v.x, v.y, v.z);
  }
  applyForce(f, p) {
    if (p == null) {
      p = cc.Vec3.ZERO;
    }
    this._impl.applyForce(f.x, f.y, f.z, p.x, p.y, p.z);
  }
  applyLocalForce(f, p) {
    if (p == null) {
      p = cc.Vec3.ZERO;
    }
    this._impl.applyLocalForce(f.x, f.y, f.z, p.x, p.y, p.z);
  }
  applyImpulse(f, p) {
    if (p == null) {
      p = cc.Vec3.ZERO;
    }
    this._impl.applyImpulse(f.x, f.y, f.z, p.x, p.y, p.z);
  }
  applyLocalImpulse(f, p) {
    if (p == null) {
      p = cc.Vec3.ZERO;
    }
    this._impl.applyLocalImpulse(f.x, f.y, f.z, p.x, p.y, p.z);
  }
  applyTorque(t) {
    this._impl.applyTorque(t.x, t.y, t.z);
  }
  applyLocalTorque(t) {
    this._impl.applyLocalTorque(t.x, t.y, t.z);
  }
}
const ESHAPE_FLAG = {
  NONE: 0,
  QUERY_FILTER: 1 << 0,
  QUERY_SINGLE_HIT: 1 << 2,
  DETECT_TRIGGER_EVENT: 1 << 3,
  DETECT_CONTACT_EVENT: 1 << 4,
  DETECT_CONTACT_POINT: 1 << 5,
  DETECT_CONTACT_CCD: 1 << 6
};
class Shape {
  get impl() {
    return this._impl;
  }
  get collider() {
    return this._com;
  }
  get attachedRigidBody() {
    return this._attachedRigidBody;
  }
  constructor() {
    updateCollisionMatrix();
  }
  initialize(v) {
    v.node.updateWorldTransform();
    this._com = v;
    this._impl.initialize(v.node);
    ptrToObj[this._impl.getObjectID()] = this;
    bookNode(v.node);
  }
  onLoad() {
    this.setMaterial(this._com.sharedMaterial);
    this.setCenter(this._com.center);
    this.setAsTrigger(this._com.isTrigger);
  }
  onEnable() {
    this._impl.onEnable();
  }
  onDisable() {
    this._impl.onDisable();
  }
  onDestroy() {
    unBookNode(this._com.node);
    delete ptrToObj[this._impl.getObjectID()];
    ptrToObj[this._impl.getObjectID()] = null;
    this._impl.onDestroy();
  }
  setMaterial(v) {
    const ins = cc.PhysicsSystem.instance;
    if (!v) v = ins.defaultMaterial;
    if (!jsbPhy.CACHE.material[v.id]) {
      jsbPhy.CACHE.material[v.id] = ins.physicsWorld.impl.createMaterial(v.id, v.friction, v.friction, v.restitution, 2, 2);
    }
    this._impl.setMaterial(v.id, v.friction, v.friction, v.restitution, 2, 2);
  }
  setAsTrigger(v) {
    this._impl.setAsTrigger(v);
  }
  setCenter(v) {
    this._impl.setCenter(v.x, v.y, v.z);
  }
  getAABB(v) {
    v.copy(this._impl.getAABB());
  }
  getBoundingSphere(v) {
    v.copy(this._impl.getBoundingSphere());
  }
  updateEventListener() {
    let flag = 0;
    flag |= ESHAPE_FLAG.DETECT_CONTACT_CCD;
    if (this._com.isTrigger) flag |= ESHAPE_FLAG.IS_TRIGGER;
    if (this._com.needTriggerEvent || this._com.needCollisionEvent) flag |= ESHAPE_FLAG.NEED_EVENT;
    this._impl.updateEventListener(flag);
  }
  setGroup(v) {
    this._impl.setGroup(v);
  }
  getGroup() {
    return this._impl.getGroup();
  }
  addGroup(v) {
    this.setGroup(this.getGroup() | v);
  }
  removeGroup(v) {
    this.setGroup(this.getGroup() & ~v);
  }
  setMask(v) {
    this._impl.setMask(v >>> 0);
  }
  getMask() {
    return this._impl.getMask();
  }
  addMask(v) {
    this.setMask(this.getMask() | v);
  }
  removeMask(v) {
    this.setMask(this.getMask() & ~v);
  }
}
class SphereShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.SphereShape();
  }
  updateRadius() {
    this._impl.setRadius(this.collider.radius);
  }
  onLoad() {
    super.onLoad();
    this.updateRadius();
  }
}
class BoxShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.BoxShape();
  }
  updateSize() {
    const v = this.collider.size;
    this._impl.setSize(v.x, v.y, v.z);
  }
  onLoad() {
    super.onLoad();
    this.updateSize();
  }
}
class CapsuleShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.CapsuleShape();
  }
  setRadius(v) {
    this._impl.setRadius(v);
  }
  setDirection(v) {
    this._impl.setDirection(v);
  }
  setCylinderHeight(v) {
    this._impl.setCylinderHeight(v);
  }
  onLoad() {
    super.onLoad();
    this.setRadius(this._com.radius);
    this.setDirection(this._com.direction);
    this.setCylinderHeight(this._com.cylinderHeight);
  }
}
class PlaneShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.PlaneShape();
  }
  setConstant(v) {
    this._impl.setConstant(v);
  }
  setNormal(v) {
    this._impl.setNormal(v.x, v.y, v.z);
  }
  onLoad() {
    super.onLoad();
    this.setNormal(this._com.normal);
    this.setConstant(this._com.constant);
  }
}
function getConvexMesh(v) {
  if (!jsbPhy.CACHE.convex[v._uuid]) {
    const posArr = cc.physics.utils.shrinkPositions(v.renderingSubMeshes[0].geometricInfo.positions);
    const world = cc.PhysicsSystem.instance.physicsWorld.impl;
    const convex = {
      positions: new Float32Array(posArr),
      positionLength: posArr.length / 3
    };
    jsbPhy.CACHE.convex[v._uuid] = world.createConvex(convex);
  }
  return jsbPhy.CACHE.convex[v._uuid];
}
function getTriangleMesh(v) {
  if (!jsbPhy.CACHE.trimesh[v._uuid]) {
    const posArr = v.renderingSubMeshes[0].geometricInfo.positions;
    const indArr = v.renderingSubMeshes[0].geometricInfo.indices;
    const world = cc.PhysicsSystem.instance.physicsWorld.impl;
    const trimesh = {
      positions: new Float32Array(posArr),
      positionLength: posArr.length / 3,
      triangles: new Uint16Array(indArr),
      triangleLength: indArr.length / 3,
      isU16: true
    };
    jsbPhy.CACHE.trimesh[v._uuid] = world.createTrimesh(trimesh);
  }
  return jsbPhy.CACHE.trimesh[v._uuid];
}
function getHeightField(v) {
  if (!jsbPhy.CACHE.height[v._uuid]) {
    const rows = v.getVertexCountI();
    const columns = v.getVertexCountJ();
    const samples = new Int16Array(rows * columns);
    const heightScale = jsbPhy.CONFIG.heightScale;
    for (let i = 0; i < rows; i++) {
      for (let j = 0; j < columns; j++) {
        samples[j + i * columns] = v.getHeight(i, j) / heightScale;
      }
    }
    const height = {
      rows,
      columns,
      samples
    };
    const world = cc.PhysicsSystem.instance.physicsWorld.impl;
    jsbPhy.CACHE.height[v._uuid] = world.createHeightField(height);
  }
  return jsbPhy.CACHE.height[v._uuid];
}
class CylinderShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.CylinderShape();
  }
  setRadius(v) {
    this.updateGeometry();
  }
  setDirection(v) {
    this.updateGeometry();
  }
  setHeight(v) {
    this.updateGeometry();
  }
  updateGeometry() {
    this._impl.setCylinder(this._com.radius, this._com.height, this._com.direction);
  }
  initialize(v) {
    if (!jsbPhy.CACHE.convex.CYLINDER) {
      const primitive = cc.physics.utils.cylinder(0.5, 0.5, 2, {
        radialSegments: 32,
        heightSegments: 1
      });
      const posArr = cc.physics.utils.shrinkPositions(primitive.positions);
      const convex = {
        positions: new Float32Array(posArr),
        positionLength: posArr.length / 3
      };
      const pxObjectID = cc.PhysicsSystem.instance.physicsWorld.impl.createConvex(convex);
      jsbPhy.CACHE.convex.CYLINDER = pxObjectID;
    }
    this._com = v;
    this._impl.setCylinder(v.radius, v.height, v.direction);
    this._impl.setConvex(jsbPhy.CACHE.convex.CYLINDER);
    super.initialize(v);
  }
}
class ConeShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.ConeShape();
  }
  setRadius(v) {
    this.updateGeometry();
  }
  setDirection(v) {
    this.updateGeometry();
  }
  setHeight(v) {
    this.updateGeometry();
  }
  updateGeometry() {
    this._impl.setCone(this._com.radius, this._com.height, this._com.direction);
  }
  initialize(v) {
    if (!jsbPhy.CACHE.convex.CONE) {
      const primitive = cc.physics.utils.cylinder(0, 0.5, 1, {
        radialSegments: 32,
        heightSegments: 1
      });
      const posArr = cc.physics.utils.shrinkPositions(primitive.positions);
      const convex = {
        positions: new Float32Array(posArr),
        positionLength: posArr.length / 3
      };
      const pxObjectID = cc.PhysicsSystem.instance.physicsWorld.impl.createConvex(convex);
      jsbPhy.CACHE.convex.CONE = pxObjectID;
    }
    this._com = v;
    this._impl.setCone(v.radius, v.height, v.direction);
    this._impl.setConvex(jsbPhy.CACHE.convex.CONE);
    super.initialize(v);
  }
}
class TrimeshShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.TrimeshShape();
  }
  setConvex(v) {
    this._impl.useConvex(v);
  }
  setMesh(v) {
    if (!v) return;
    const isConvex = this._com.convex;
    this._impl.useConvex(isConvex);
    const pxObjectID = isConvex ? getConvexMesh(v) : getTriangleMesh(v);
    this._impl.setMesh(pxObjectID);
  }
  initialize(v) {
    this._com = v;
    this.setConvex(v.convex);
    this.setMesh(v.mesh);
    super.initialize(v);
  }
}
class TerrainShape extends Shape {
  constructor() {
    super();
    this._impl = new jsbPhy.TerrainShape();
  }
  setTerrain(v) {
    if (!v) return;
    const pxObjectID = getHeightField(v);
    this._impl.setTerrain(pxObjectID, v.tileSize, v.tileSize, jsbPhy.CONFIG.heightScale);
  }
  initialize(v) {
    this._com = v;
    this.setTerrain(v.terrain);
    super.initialize(v);
  }
}
class Joint {
  get impl() {
    return this._impl;
  }
  get joint() {
    return this._com;
  }
  setEnableCollision(v) {
    this._impl.setEnableCollision(v);
  }
  setConnectedBody(v) {
    this._impl.setConnectedBody(v ? v.body.impl.getObjectID() : 0);
  }
  initialize(v) {
    this._com = v;
    this._impl.initialize(v.node);
    ptrToObj[this._impl.getObjectID()] = this;
    this.onLoad();
  }
  onLoad() {
    this.setConnectedBody(this._com.connectedBody);
    this.setEnableCollision(this._com.enableCollision);
  }
  onEnable() {
    this._impl.onEnable();
  }
  onDisable() {
    this._impl.onDisable();
  }
  onDestroy() {
    delete ptrToObj[this._impl.getObjectID()];
    ptrToObj[this._impl.getObjectID()] = null;
    this._impl.onDestroy();
  }
}
class SphericalJoint extends Joint {
  constructor() {
    super();
    this._impl = new jsbPhy.SphericalJoint();
  }
  setPivotA(v) {
    this._impl.setPivotA(v.x, v.y, v.z);
  }
  setPivotB(v) {
    this._impl.setPivotB(v.x, v.y, v.z);
  }
  onLoad() {
    super.onLoad();
    this.setPivotA(this._com.pivotA);
    this.setPivotB(this._com.pivotB);
  }
}
class RevoluteJoint extends Joint {
  constructor() {
    super();
    this._impl = new jsbPhy.RevoluteJoint();
  }
  setAxis(v) {
    this._impl.setAxis(v.x, v.y, v.z);
  }
  setPivotA(v) {
    this._impl.setPivotA(v.x, v.y, v.z);
  }
  setPivotB(v) {
    this._impl.setPivotB(v.x, v.y, v.z);
  }
  setLimitEnabled(v) {
    this._impl.setLimitEnabled(v);
  }
  setLowerLimit(v) {
    this._impl.setLowerLimit(v);
  }
  setUpperLimit(v) {
    this._impl.setUpperLimit(v);
  }
  setMotorEnabled(v) {
    this._impl.setMotorEnabled(v);
  }
  setMotorVelocity(v) {
    this._impl.setMotorVelocity(v);
  }
  setMotorForceLimit(v) {
    this._impl.setMotorForceLimit(v);
  }
  onLoad() {
    super.onLoad();
    this.setAxis(this._com.axis);
    this.setPivotA(this._com.pivotA);
    this.setPivotB(this._com.pivotB);
    this.setLimitEnabled(this._com.limitEnabled);
    this.setLowerLimit(this._com.lowerLimit);
    this.setUpperLimit(this._com.upperLimit);
    this.setMotorEnabled(this._com.motorEnabled);
    this.setMotorVelocity(this._com.motorVelocity);
    this.setMotorForceLimit(this._com.motorForceLimit);
  }
}
class FixedJoint extends Joint {
  constructor() {
    super();
    this._impl = new jsbPhy.FixedJoint();
  }
  setBreakForce(v) {
    this._impl.setBreakForce(v);
  }
  setBreakTorque(v) {
    this._impl.setBreakTorque(v);
  }
  onLoad() {
    super.onLoad();
    this.setBreakForce(this._com.breakForce);
    this.setBreakTorque(this._com.breakTorque);
  }
}
class ConfigurableJoint extends Joint {
  constructor() {
    super();
    this._impl = new jsbPhy.GenericJoint();
  }
  setConstraintMode(idx, v) {
    this._impl.setConstraintMode(idx, v);
  }
  setLinearLimit(idx, upper, lower) {
    this._impl.setLinearLimit(idx, upper, lower);
  }
  setAngularExtent(twist, swing1, swing2) {
    this._impl.setAngularExtent(twist, swing1, swing2);
  }
  setLinearSoftConstraint(v) {
    this._impl.setLinearSoftConstraint(v);
  }
  setLinearStiffness(v) {
    this._impl.setLinearStiffness(v);
  }
  setLinearDamping(v) {
    this._impl.setLinearDamping(v);
  }
  setLinearRestitution(v) {
    this._impl.setLinearRestitution(v);
  }
  setSwingSoftConstraint(v) {
    this._impl.setSwingSoftConstraint(v);
  }
  setTwistSoftConstraint(v) {
    this._impl.setTwistSoftConstraint(v);
  }
  setSwingStiffness(v) {
    this._impl.setSwingStiffness(v);
  }
  setSwingDamping(v) {
    this._impl.setSwingDamping(v);
  }
  setSwingRestitution(v) {
    this._impl.setSwingRestitution(v);
  }
  setTwistStiffness(v) {
    this._impl.setTwistStiffness(v);
  }
  setTwistDamping(v) {
    this._impl.setTwistDamping(v);
  }
  setTwistRestitution(v) {
    this._impl.setTwistRestitution(v);
  }

  // motor
  setDriverMode(idx, v) {
    this._impl.setDriverMode(idx, v);
  }
  setLinearMotorTarget(v) {
    this._impl.setLinearMotorTarget(v.x, v.y, v.z);
  }
  setLinearMotorVelocity(v) {
    this._impl.setLinearMotorVelocity(v.x, v.y, v.z);
  }
  setLinearMotorForceLimit(v) {
    this._impl.setLinearMotorForceLimit(v);
  }
  setAngularMotorTarget(v) {
    this._impl.setAngularMotorTarget(v.x, v.y, v.z);
  }
  setAngularMotorVelocity(v) {
    this._impl.setAngularMotorVelocity(v.x, v.y, v.z);
  }
  setAngularMotorForceLimit(v) {
    this._impl.setAngularMotorForceLimit(v);
  }
  setPivotA(v) {
    this._impl.setPivotA(v.x, v.y, v.z);
  }
  setPivotB(v) {
    this._impl.setPivotB(v.x, v.y, v.z);
  }
  setAutoPivotB(v) {
    this._impl.setAutoPivotB(v);
  }
  setAxis(v) {
    this._impl.setAxis(v.x, v.y, v.z);
  }
  setSecondaryAxis(v) {
    this._impl.setSecondaryAxis(v.x, v.y, v.z);
  }
  setBreakForce(v) {
    this._impl.setBreakForce(v);
  }
  setBreakTorque(v) {
    this._impl.setBreakTorque(v);
  }
  onLoad() {
    super.onLoad();
    this.setBreakForce(this._com.breakForce);
    this.setBreakTorque(this._com.breakTorque);
    const com = this._com;
    const linearLimit = com.linearLimitSettings;
    const angularLimit = com.angularLimitSettings;
    this.setConstraintMode(0, linearLimit.xMotion);
    this.setConstraintMode(1, linearLimit.yMotion);
    this.setConstraintMode(2, linearLimit.zMotion);
    this.setConstraintMode(3, angularLimit.twistMotion);
    this.setConstraintMode(4, angularLimit.swingMotion1);
    this.setConstraintMode(5, angularLimit.swingMotion2);
    this.setLinearLimit(0, linearLimit.lower.x, linearLimit.upper.x);
    this.setLinearLimit(1, linearLimit.lower.y, linearLimit.upper.y);
    this.setLinearLimit(2, linearLimit.lower.z, linearLimit.upper.z);
    this.setAngularExtent(angularLimit.twistExtent, angularLimit.swingExtent1, angularLimit.swingExtent2);
    this.setLinearSoftConstraint(linearLimit.enableSoftConstraint);
    this.setLinearStiffness(linearLimit.stiffness);
    this.setLinearDamping(linearLimit.damping);
    this.setLinearRestitution(linearLimit.restitution);
    this.setSwingSoftConstraint(angularLimit.enableSoftConstraintSwing);
    this.setTwistSoftConstraint(angularLimit.enableSoftConstraintTwist);
    this.setSwingStiffness(angularLimit.swingStiffness);
    this.setSwingDamping(angularLimit.swingDamping);
    this.setSwingRestitution(angularLimit.swingRestitution);
    this.setTwistStiffness(angularLimit.twistStiffness);
    this.setTwistDamping(angularLimit.twistDamping);
    this.setTwistRestitution(angularLimit.twistRestitution);
    const linearMotor = com.linearDriverSettings;
    const angularMotor = com.angularDriverSettings;
    this.setDriverMode(0, linearMotor.xDrive);
    this.setDriverMode(1, linearMotor.yDrive);
    this.setDriverMode(2, linearMotor.zDrive);
    this.setDriverMode(3, angularMotor.twistDrive);
    this.setDriverMode(4, angularMotor.swingDrive1);
    this.setDriverMode(5, angularMotor.swingDrive2);
    this.setLinearMotorTarget(linearMotor.targetPosition);
    this.setLinearMotorVelocity(linearMotor.targetVelocity);
    this.setLinearMotorForceLimit(linearMotor.strength);
    this.setAngularMotorTarget(angularMotor.targetOrientation);
    this.setAngularMotorVelocity(angularMotor.targetVelocity);
    this.setAngularMotorForceLimit(angularMotor.strength);
    this.setPivotA(com.pivotA);
    this.setPivotB(com.pivotB);
    this.setAutoPivotB(com.autoPivotB);
    this.setAxis(com.axis);
    this.setSecondaryAxis(com.secondaryAxis);
    this.setBreakForce(com.breakForce);
    this.setBreakTorque(com.breakTorque);
  }
}
class CharacterController {
  get impl() {
    return this._impl;
  }
  get characterController() {
    return this._com;
  }
  constructor() {
    updateCollisionMatrix();
  }
  initialize(com) {
    this._com = com;
    const inited = this._impl.initialize(com.node);
    ptrToObj[this._impl.getObjectID()] = this;
    return inited;
  }
  onLoad() {
    this.setGroup(this._com.group);
    const cm = cc.PhysicsSystem.instance.collisionMatrix;
    const mask = cm[this._com.group];
    this.setMask(mask);
    this.setCenter(this._com.center);
    this.setStepOffset(this._com.stepOffset);
    this.setSlopeLimit(this._com.slopeLimit);
    this.setContactOffset(this._com.skinWidth);
    this.setDetectCollisions(true); //this._com.detectCollisions);
    this.setOverlapRecovery(true); //this._com.enableOverlapRecovery);
  }

  onEnable() {
    this._impl.onEnable();
  }
  onDisable() {
    this._impl.onDisable();
  }
  onDestroy() {
    delete ptrToObj[this._impl.getObjectID()];
    ptrToObj[this._impl.getObjectID()] = null;
    this._impl.onDestroy();
  }
  onGround() {
    return this._impl.onGround();
  }
  move(v, minDist, dt) {
    return this._impl.move(v.x, v.y, v.z, minDist, dt);
  }
  syncPhysicsToScene() {
    this._impl.syncPhysicsToScene();
  }
  setPosition(v) {
    this._impl.setPosition(v.x, v.y, v.z);
  }
  getPosition() {
    return this._impl.getPosition();
  }
  setStepOffset(v) {
    this._impl.setStepOffset(v);
  }
  getStepOffset() {
    return this._impl.getStepOffset();
  }
  setSlopeLimit(v) {
    this._impl.setSlopeLimit(v);
  }
  getSlopeLimit() {
    return this._impl.getSlopeLimit();
  }
  setContactOffset(v) {
    this._impl.setContactOffset(v);
  }
  getContactOffset() {
    return this._impl.getContactOffset();
  }
  setDetectCollisions(v) {
    this._impl.setDetectCollisions(v);
  }
  setOverlapRecovery(v) {
    this._impl.setOverlapRecovery(v);
  }
  setCenter(v) {
    this._impl.setCenter(v.x, v.y, v.z);
  }
  updateEventListener() {
    let flag = 0;
    if (this._com.needTriggerEvent) flag |= ESHAPE_FLAG.DETECT_TRIGGER_EVENT;
    this._impl.updateEventListener(flag);
  }
  setGroup(v) {
    this._impl.setGroup(v);
  }
  getGroup() {
    return this._impl.getGroup();
  }
  addGroup(v) {
    this.setGroup(this.getGroup() | v);
  }
  removeGroup(v) {
    this.setGroup(this.getGroup() & ~v);
  }
  setMask(v) {
    this._impl.setMask(v >>> 0);
  }
  getMask() {
    return this._impl.getMask();
  }
  addMask(v) {
    this.setMask(this.getMask() | v);
  }
  removeMask(v) {
    this.setMask(this.getMask() & ~v);
  }
}
class CapsuleCharacterController extends CharacterController {
  constructor() {
    super();
    this._impl = new jsbPhy.CapsuleCharacterController();
  }
  setRadius(v) {
    this._impl.setRadius(v);
  }
  setHeight(v) {
    this._impl.setHeight(v);
  }
  onLoad() {
    super.onLoad();
    this.setRadius(this._com.radius);
    this.setHeight(this._com.height);
  }
}
class BoxCharacterController extends CharacterController {
  constructor() {
    super();
    this._impl = new jsbPhy.BoxCharacterController();
  }
  setHalfHeight(v) {
    this._impl.setHalfHeight(v);
  }
  setHalfSideExtent(v) {
    this._impl.setHalfSideExtent(v);
  }
  setHalfForwardExtent(v) {
    this._impl.setHalfForwardExtent(v);
  }
  onLoad() {
    super.onLoad();
    this.setHalfHeight(this._com.halfHeight);
    this.setHalfSideExtent(this._com.halfSideExtent);
    this.setHalfForwardExtent(this._com.halfForwardExtent);
  }
}
cc.physics.selector.register('physx', {
  PhysicsWorld,
  RigidBody,
  SphereShape,
  BoxShape,
  PlaneShape,
  CapsuleShape,
  ConeShape,
  CylinderShape,
  TrimeshShape,
  TerrainShape,
  PointToPointConstraint: SphericalJoint,
  HingeConstraint: RevoluteJoint,
  FixedConstraint: FixedJoint,
  ConfigurableConstraint: ConfigurableJoint,
  CapsuleCharacterController,
  BoxCharacterController
});

},{}],12:[function(require,module,exports){
"use strict";

/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 http://www.cocos.com

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/
const cacheManager = require('./jsb-cache-manager');

// @ts-expect-error jsb polyfills
(function () {
  if (globalThis.spine === undefined || globalThis.middleware === undefined) return;
  if (cc.internal.SpineSkeletonData === undefined) return;
  const spine = globalThis.spine;
  const middleware = globalThis.middleware;
  middleware.generateGetSet(spine);

  // spine global time scale
  Object.defineProperty(spine, 'timeScale', {
    get() {
      return this._timeScale;
    },
    set(value) {
      this._timeScale = value;
      spine.SkeletonAnimation.setGlobalTimeScale(value);
    },
    configurable: true
  });
  const _slotColor = cc.color(0, 0, 255, 255);
  const _boneColor = cc.color(255, 0, 0, 255);
  const _meshColor = cc.color(255, 255, 0, 255);
  const _originColor = cc.color(0, 255, 0, 255);
  const skeletonDataProto = cc.internal.SpineSkeletonData.prototype;
  let _gTextureIdx = 1;
  const _textureKeyMap = {};
  const _textureMap = new WeakMap();
  const skeletonDataMgr = spine.SkeletonDataMgr.getInstance();
  spine.skeletonDataMgr = skeletonDataMgr;
  skeletonDataMgr.setDestroyCallback(textureIndex => {
    if (!textureIndex) return;
    const texKey = _textureKeyMap[textureIndex];
    if (texKey && _textureMap.has(texKey)) {
      _textureMap.delete(texKey);
      delete _textureKeyMap[textureIndex];
    }
  });
  const skeletonCacheMgr = spine.SkeletonCacheMgr.getInstance();
  spine.skeletonCacheMgr = skeletonCacheMgr;
  skeletonDataProto.destroy = function () {
    this.reset();
    skeletonCacheMgr.removeSkeletonCache(this._uuid);
    cc.Asset.prototype.destroy.call(this);
  };
  skeletonDataProto.reset = function () {
    if (this._skeletonCache) {
      spine.disposeSkeletonData(this._uuid);
      this._jsbTextures = null;
      this._skeletonCache = null;
    }
    this._atlasCache = null;
  };
  skeletonDataProto.getRuntimeData = function () {
    if (!this._skeletonCache) {
      this.init();
    }
    return this._skeletonCache;
  };
  skeletonDataProto.init = function () {
    if (this._skeletonCache) return;
    const uuid = this._uuid;
    if (!uuid) {
      cc.errorID(7504);
      return;
    }
    const atlasText = this.atlasText;
    if (!atlasText) {
      cc.errorID(7508, this.name);
      return;
    }
    const textures = this.textures;
    const textureNames = this.textureNames;
    if (!(textures && textures.length > 0 && textureNames && textureNames.length > 0)) {
      cc.errorID(7507, this.name);
      return;
    }
    const jsbTextures = {};
    for (let i = 0; i < textures.length; ++i) {
      const texture = textures[i];
      const textureIdx = this.recordTexture(texture);
      const spTex = new middleware.Texture2D();
      spTex.setRealTextureIndex(textureIdx);
      spTex.setPixelsWide(texture.width);
      spTex.setPixelsHigh(texture.height);
      spTex.setRealTexture(texture);
      jsbTextures[textureNames[i]] = spTex;
    }
    this._jsbTextures = jsbTextures;
    let filePath = null;
    if (this.skeletonJsonStr) {
      filePath = this.skeletonJsonStr;
    } else {
      filePath = cacheManager.getCache(this.nativeUrl) || this.nativeUrl;
    }
    this._skeletonCache = spine.initSkeletonData(uuid, filePath, atlasText, jsbTextures, this.scale);
    if (this._skeletonCache) {
      this.width = this._skeletonCache.width;
      this.height = this._skeletonCache.height;
    }
  };
  skeletonDataProto.recordTexture = function (texture) {
    const index = _gTextureIdx;
    const texKey = _textureKeyMap[index] = {
      key: index
    };
    _textureMap.set(texKey, texture);
    _gTextureIdx++;
    return index;
  };
  skeletonDataProto.getTextureByIndex = function (textureIdx) {
    const texKey = _textureKeyMap[textureIdx];
    if (!texKey) return null;
    return _textureMap.get(texKey);
  };
  const animation = spine.SkeletonAnimation.prototype;
  // The methods are added to be compatibility with old versions.
  animation.setCompleteListener = function (listener) {
    this._compeleteListener = listener;
    this.setCompleteListenerNative(function (trackEntry) {
      const loopCount = Math.floor(trackEntry.trackTime / trackEntry.animationEnd);
      this._compeleteListener && this._compeleteListener(trackEntry, loopCount);
    });
  };

  // The methods are added to be compatibility with old versions.
  animation.setTrackCompleteListener = function (trackEntry, listener) {
    this._trackCompeleteListener = listener;
    this.setTrackCompleteListenerNative(trackEntry, function (trackEntryNative) {
      const loopCount = Math.floor(trackEntryNative.trackTime / trackEntryNative.animationEnd);
      this._trackCompeleteListener && this._trackCompeleteListener(trackEntryNative, loopCount);
    });
  };

  // Temporary solution before upgrade the Spine API
  animation.setAnimationListener = function (target, callback) {
    this._target = target;
    this._callback = callback;

    // eslint-disable-next-line no-undef
    const AnimationEventType = legacyCC.internal.SpineAnimationEventType;
    this.setStartListener(function (trackEntry) {
      if (this._target && this._callback) {
        this._callback.call(this._target, this, trackEntry, AnimationEventType.START, null, 0);
      }
    });
    this.setInterruptListener(function (trackEntry) {
      if (this._target && this._callback) {
        this._callback.call(this._target, this, trackEntry, AnimationEventType.INTERRUPT, null, 0);
      }
    });
    this.setEndListener(function (trackEntry) {
      if (this._target && this._callback) {
        this._callback.call(this._target, this, trackEntry, AnimationEventType.END, null, 0);
      }
    });
    this.setDisposeListener(function (trackEntry) {
      if (this._target && this._callback) {
        this._callback.call(this._target, this, trackEntry, AnimationEventType.DISPOSE, null, 0);
      }
    });
    this.setCompleteListener(function (trackEntry, loopCount) {
      if (this._target && this._callback) {
        this._callback.call(this._target, this, trackEntry, AnimationEventType.COMPLETE, null, loopCount);
      }
    });
    this.setEventListener(function (trackEntry, event) {
      if (this._target && this._callback) {
        this._callback.call(this._target, this, trackEntry, AnimationEventType.EVENT, event, 0);
      }
    });
  };
  const skeleton = cc.internal.SpineSkeleton.prototype;
  const AnimationCacheMode = cc.internal.SpineSkeleton.AnimationCacheMode;
  Object.defineProperty(skeleton, 'paused', {
    get() {
      return this._paused || false;
    },
    set(value) {
      this._paused = value;
      if (this._nativeSkeleton) {
        this._nativeSkeleton.paused(value);
      }
    }
  });
  Object.defineProperty(skeleton, 'premultipliedAlpha', {
    get() {
      if (this._premultipliedAlpha === undefined) {
        return true;
      }
      return this._premultipliedAlpha;
    },
    set(value) {
      this._premultipliedAlpha = value;
      if (this._nativeSkeleton) {
        this._nativeSkeleton.setOpacityModifyRGB(this._premultipliedAlpha);
      }
    }
  });
  Object.defineProperty(skeleton, 'timeScale', {
    get() {
      if (this._timeScale === undefined) return 1.0;
      return this._timeScale;
    },
    set(value) {
      this._timeScale = value;
      if (this._nativeSkeleton) {
        this._nativeSkeleton.setTimeScale(this._timeScale);
      }
    }
  });
  const _updateMaterial = skeleton.updateMaterial;
  skeleton.updateMaterial = function () {
    _updateMaterial.call(this);
    if (this._nativeSkeleton) {
      const mat = this.getMaterialTemplate();
      this._nativeSkeleton.setMaterial(mat);
    }
  };
  const _updateDebugDraw = skeleton._updateDebugDraw;
  skeleton._updateDebugDraw = function () {
    _updateDebugDraw.call(this);
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setDebugMeshEnabled(this.debugMesh);
      this._nativeSkeleton.setDebugSlotsEnabled(this.debugSlots);
      this._nativeSkeleton.setDebugBonesEnabled(this.debugBones);
    }
  };
  const _updateUseTint = skeleton._updateUseTint;
  skeleton._updateUseTint = function () {
    _updateUseTint.call(this);
    if (this._nativeSkeleton) {
      this._nativeSkeleton.setUseTint(this.useTint);
    }
  };
  skeleton._updateBatch = function () {
    if (this._nativeSkeleton) {
      this._renderEntity.setUseLocal(!this.enableBatch);
      this._nativeSkeleton.setBatchEnabled(this.enableBatch);
      this.markForUpdateRenderData();
    }
  };
  skeleton.setSkeletonData = function (skeletonData) {
    if (skeletonData.width != null && skeletonData.height != null) {
      const uiTrans = this.node._uiProps.uiTransformComp;
      uiTrans.setContentSize(skeletonData.width, skeletonData.height);
    }
    const uuid = skeletonData._uuid;
    if (!uuid) {
      cc.errorID(7504);
      return;
    }
    const texValues = skeletonData.textures;
    const texKeys = skeletonData.textureNames;
    if (!(texValues && texValues.length > 0 && texKeys && texKeys.length > 0)) {
      cc.errorID(7507, skeletonData.name);
      return;
    }
    if (this._nativeSkeleton) {
      this._nativeSkeleton.stopSchedule();
      this._nativeSkeleton._comp = null;
      this._nativeSkeleton = null;
    }
    let nativeSkeleton = null;
    if (this.isAnimationCached()) {
      nativeSkeleton = new spine.SkeletonCacheAnimation(uuid, this._cacheMode === AnimationCacheMode.SHARED_CACHE);
    } else {
      nativeSkeleton = new spine.SkeletonAnimation();
      try {
        spine.initSkeletonRenderer(nativeSkeleton, uuid);
      } catch (e) {
        cc._throw(e);
        return;
      }
      nativeSkeleton.setDebugSlotsEnabled(this.debugSlots);
      nativeSkeleton.setDebugMeshEnabled(this.debugMesh);
      nativeSkeleton.setDebugBonesEnabled(this.debugBones);
    }
    this._nativeSkeleton = nativeSkeleton;
    nativeSkeleton._comp = this;
    if (this.shouldSchedule) nativeSkeleton.beginSchedule();
    nativeSkeleton.setUseTint(this.useTint);
    nativeSkeleton.setOpacityModifyRGB(this.premultipliedAlpha);
    nativeSkeleton.setTimeScale(this.timeScale);
    nativeSkeleton.setBatchEnabled(this.enableBatch);
    const compColor = this.color;
    nativeSkeleton.setColor(compColor.r, compColor.g, compColor.b, compColor.a);
    const materialTemplate = this.getMaterialTemplate();
    nativeSkeleton.setMaterial(materialTemplate);
    this._renderEntity.setUseLocal(!this.enableBatch);
    nativeSkeleton.setRenderEntity(this._renderEntity.nativeObj);
    this._skeleton = nativeSkeleton.getSkeleton();

    // init skeleton listener
    this._startListener && this.setStartListener(this._startListener);
    this._endListener && this.setEndListener(this._endListener);
    this._completeListener && this.setCompleteListener(this._completeListener);
    this._eventListener && this.setEventListener(this._eventListener);
    this._interruptListener && this.setInterruptListener(this._interruptListener);
    this._disposeListener && this.setDisposeListener(this._disposeListener);
    this._sharedBufferOffset = nativeSkeleton.getSharedBufferOffset();
    this._useAttach = false;
    this.markForUpdateRenderData();
  };
  skeleton._updateColor = function () {
    if (this._nativeSkeleton) {
      const compColor = this.color;
      this._nativeSkeleton.setColor(compColor.r, compColor.g, compColor.b, compColor.a);
      this.markForUpdateRenderData();
    }
  };
  skeleton.setAnimationStateData = function (stateData) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._stateData = stateData;
      this._nativeSkeleton.setAnimationStateData(stateData);
    }
  };
  const _onEnable = skeleton.onEnable;
  skeleton.onEnable = function () {
    if (_onEnable) {
      _onEnable.call(this);
    }
    this.shouldSchedule = true;
    if (this._nativeSkeleton) {
      this._nativeSkeleton.onEnable();
    }
    middleware.retain();
  };
  const _onDisable = skeleton.onDisable;
  skeleton.onDisable = function () {
    if (_onDisable) {
      _onDisable.call(this);
    }
    if (this._nativeSkeleton) {
      this._nativeSkeleton.onDisable();
    }
    middleware.release();
  };
  skeleton.setVertexEffectDelegate = function (effectDelegate) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setVertexEffectDelegate(effectDelegate);
    }
  };

  // eslint-disable-next-line no-unused-vars
  skeleton.updateAnimation = function (dt) {
    const nativeSkeleton = this._nativeSkeleton;
    if (!nativeSkeleton) return;
    const node = this.node;
    if (!node) return;
    if (this.__preColor__ === undefined || !this.color.equals(this.__preColor__)) {
      const compColor = this.color;
      nativeSkeleton.setColor(compColor.r, compColor.g, compColor.b, compColor.a);
      this.__preColor__ = compColor;
    }
    const socketNodes = this.socketNodes;
    if (!this._useAttach && socketNodes.size > 0) {
      this._useAttach = true;
      nativeSkeleton.setAttachEnabled(true);
    }
  };
  skeleton.updateWorldTransform = function () {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.updateWorldTransform();
    }
  };
  skeleton.setToSetupPose = function () {
    if (this._nativeSkeleton) {
      this._nativeSkeleton.setToSetupPose();
    }
  };
  skeleton.setBonesToSetupPose = function () {
    if (this._nativeSkeleton) {
      this._nativeSkeleton.setBonesToSetupPose();
    }
  };
  skeleton.setSlotsToSetupPose = function () {
    if (this._nativeSkeleton) {
      this._nativeSkeleton.setSlotsToSetupPose();
    }
  };
  skeleton.setSlotsRange = function (startSlotIndex, endSlotIndex) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setSlotsRange(startSlotIndex, endSlotIndex);
    }
  };
  skeleton.updateAnimationCache = function (animName) {
    if (!this.isAnimationCached()) return;
    if (this._nativeSkeleton) {
      if (animName) {
        this._nativeSkeleton.updateAnimationCache(animName);
      } else {
        this._nativeSkeleton.updateAllAnimationCache();
      }
    }
  };
  skeleton.invalidAnimationCache = function () {
    if (!this.isAnimationCached()) return;
    if (this._nativeSkeleton) {
      this._nativeSkeleton.updateAllAnimationCache();
    }
  };
  skeleton.findBone = function (boneName) {
    if (this._nativeSkeleton) return this._nativeSkeleton.findBone(boneName);
    return null;
  };
  skeleton.findSlot = function (slotName) {
    if (this._nativeSkeleton) return this._nativeSkeleton.findSlot(slotName);
    return null;
  };
  skeleton.setSkin = function (skinName) {
    if (this._nativeSkeleton) return this._nativeSkeleton.setSkin(skinName);
    return null;
  };
  skeleton.getAttachment = function (slotName, attachmentName) {
    if (this._nativeSkeleton) return this._nativeSkeleton.getAttachment(slotName, attachmentName);
    return null;
  };
  skeleton.setAttachment = function (slotName, attachmentName) {
    this._nativeSkeleton && this._nativeSkeleton.setAttachment(slotName, attachmentName);
  };

  // eslint-disable-next-line no-unused-vars
  skeleton.getTextureAtlas = function (regionAttachment) {
    cc.warn('Spine Skeleton getTextureAtlas not support in native');
    return null;
  };
  skeleton.setMix = function (fromAnimation, toAnimation, duration) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setMix(fromAnimation, toAnimation, duration);
    }
  };
  skeleton.setAnimation = function (trackIndex, name, loop) {
    const strName = name.toString();
    this._playTimes = loop ? 0 : 1;
    let res = null;
    if (this._nativeSkeleton) {
      if (!this._nativeSkeleton.findAnimation(strName)) return res;
      this._animationName = strName;
      if (this.isAnimationCached()) {
        res = this._nativeSkeleton.setAnimation(strName, loop);
      } else {
        res = this._nativeSkeleton.setAnimation(trackIndex, strName, loop);
      }
      /**
       * note: since native spine animation update called after Director.EVENT_BEFORE_UPDATE
       * and before setAnimation. it's need to update native animation to first frame directly.
       */
      this._nativeSkeleton.update(0);
    }
    return res;
  };
  skeleton.addAnimation = function (trackIndex, name, loop, delay) {
    if (this._nativeSkeleton) {
      delay = delay || 0;
      if (this.isAnimationCached()) {
        return this._nativeSkeleton.addAnimation(name, loop, delay);
      } else {
        return this._nativeSkeleton.addAnimation(trackIndex, name, loop, delay);
      }
    }
    return null;
  };
  skeleton.findAnimation = function (name) {
    if (this._nativeSkeleton) return this._nativeSkeleton.findAnimation(name);
    return null;
  };
  skeleton.getCurrent = function (trackIndex) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      return this._nativeSkeleton.getCurrent(trackIndex);
    }
    return null;
  };
  skeleton.clearTracks = function () {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.clearTracks();
    }
  };
  skeleton.clearTrack = function (trackIndex) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.clearTrack(trackIndex);
    }
  };
  skeleton.setStartListener = function (listener) {
    this._startListener = listener;
    if (this._nativeSkeleton) {
      if (this.isAnimationCached()) {
        this._nativeSkeleton.setStartListener(function (animationName) {
          const self = this._comp;
          self._startEntry.animation.name = animationName;
          self._startListener && self._startListener(self._startEntry);
        });
      } else {
        this._nativeSkeleton.setStartListener(listener);
      }
    }
  };
  skeleton.setInterruptListener = function (listener) {
    this._interruptListener = listener;
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setInterruptListener(listener);
    }
  };
  skeleton.setEndListener = function (listener) {
    this._endListener = listener;
    if (this._nativeSkeleton) {
      if (this.isAnimationCached()) {
        this._nativeSkeleton.setEndListener(function (animationName) {
          const self = this._comp;
          self._endEntry.animation.name = animationName;
          self._endListener && self._endListener(self._endEntry);
        });
      } else {
        this._nativeSkeleton.setEndListener(listener);
      }
    }
  };
  skeleton.setDisposeListener = function (listener) {
    this._disposeListener = listener;
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setDisposeListener(listener);
    }
  };
  skeleton.setCompleteListener = function (listener) {
    this._completeListener = listener;
    if (this._nativeSkeleton) {
      if (this.isAnimationCached()) {
        this._nativeSkeleton.setCompleteListener(function (animationName) {
          const self = this._comp;
          self._endEntry.animation.name = animationName;
          self._completeListener && self._completeListener(self._endEntry);
        });
      } else {
        this._nativeSkeleton.setCompleteListener(listener);
      }
    }
  };
  skeleton.setEventListener = function (listener) {
    this._eventListener = listener;
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setEventListener(listener);
    }
  };
  skeleton.setTrackStartListener = function (entry, listener) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setTrackStartListener(entry, listener);
    }
  };
  skeleton.setTrackInterruptListener = function (entry, listener) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setTrackInterruptListener(entry, listener);
    }
  };
  skeleton.setTrackEndListener = function (entry, listener) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setTrackEndListener(entry, listener);
    }
  };
  skeleton.setTrackDisposeListener = function (entry, listener) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setTrackDisposeListener(entry, listener);
    }
  };
  skeleton.setTrackCompleteListener = function (entry, listener) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setTrackCompleteListener(entry, listener);
    }
  };
  skeleton.setTrackEventListener = function (entry, listener) {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      this._nativeSkeleton.setTrackEventListener(entry, listener);
    }
  };
  skeleton.getState = function () {
    if (this._nativeSkeleton && !this.isAnimationCached()) {
      return this._nativeSkeleton.getState();
    }
    return null;
  };
  skeleton._ensureListener = function () {
    cc.warn('Spine Skeleton _ensureListener not need in native');
  };
  skeleton._updateSkeletonData = function () {
    if (this.skeletonData) {
      this.skeletonData.init();
      this.setSkeletonData(this.skeletonData);
      this._indexBoneSockets();
      this._updateSocketBindings();
      this.attachUtil.init(this);
      this._preCacheMode = this._cacheMode;
      this.defaultSkin && this._nativeSkeleton.setSkin(this.defaultSkin);
      this.animation = this.defaultAnimation;
    } else if (this._nativeSkeleton) {
      this._nativeSkeleton.stopSchedule();
      this._nativeSkeleton._comp = null;
      this._nativeSkeleton = null;
    }
    this._needUpdateSkeltonData = false;
  };
  const _onDestroy = skeleton.onDestroy;
  skeleton.onDestroy = function () {
    _onDestroy.call(this);
    if (this._nativeSkeleton) {
      this._nativeSkeleton.stopSchedule();
      this._nativeSkeleton._comp = null;
      this._nativeSkeleton = null;
    }
    this._stateData = null;
  };
  skeleton._render = function () {
    const nativeSkeleton = this._nativeSkeleton;
    if (!nativeSkeleton) return;
    if (!this.isAnimationCached() && (this.debugBones || this.debugSlots || this.debugMesh) && this._debugRenderer) {
      const graphics = this._debugRenderer;
      graphics.clear();
      graphics.lineWidth = 5;
      const debugData = this._debugData || nativeSkeleton.getDebugData();
      if (!debugData) return;
      let debugIdx = 0;
      let debugType = 0;
      let debugLen = 0;
      debugType = debugData[debugIdx++];
      while (debugType !== 0) {
        debugLen = debugData[debugIdx++];
        switch (debugType) {
          case 1:
            // slots
            graphics.strokeColor = _slotColor;
            for (let i = 0; i < debugLen; i += 8) {
              graphics.moveTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.lineTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.lineTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.lineTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.close();
              graphics.stroke();
            }
            break;
          case 2:
            // mesh
            graphics.strokeColor = _meshColor;
            for (let i = 0; i < debugLen; i += 6) {
              graphics.moveTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.lineTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.lineTo(debugData[debugIdx++], debugData[debugIdx++]);
              graphics.close();
              graphics.stroke();
            }
            break;
          case 3:
            // bones
            graphics.strokeColor = _boneColor;
            graphics.fillColor = _slotColor; // Root bone color is same as slot color.
            for (let i = 0; i < debugLen; i += 4) {
              const bx = debugData[debugIdx++];
              const by = debugData[debugIdx++];
              const x = debugData[debugIdx++];
              const y = debugData[debugIdx++];

              // Bone lengths.
              graphics.moveTo(bx, by);
              graphics.lineTo(x, y);
              graphics.stroke();

              // Bone origins.
              graphics.circle(bx, by, Math.PI * 1.5);
              graphics.fill();
              if (i === 0) {
                graphics.fillColor = _originColor;
              }
            }
            break;
          default:
            return;
        }
        debugType = debugData[debugIdx++];
      }
    }
  };
  const _tempAttachMat4 = cc.mat4();
  skeleton.syncAttachedNode = function () {
    const nativeSkeleton = this._nativeSkeleton;
    if (!nativeSkeleton) return;
    const socketNodes = this.socketNodes;
    if (socketNodes.size > 0 && this._useAttach) {
      const sharedBufferOffset = this._sharedBufferOffset;
      if (!sharedBufferOffset) return;
      const attachInfoMgr = middleware.attachInfoMgr;
      const attachInfo = attachInfoMgr.attachInfo;
      const attachInfoOffset = sharedBufferOffset[0];
      // reset attach info offset
      sharedBufferOffset[0] = 0;
      for (const boneIdx of socketNodes.keys()) {
        const boneNode = socketNodes.get(boneIdx);
        // Node has been destroy
        if (!boneNode || !boneNode.isValid) {
          socketNodes.delete(boneIdx);
          continue;
        }
        const tm = _tempAttachMat4;
        const matOffset = attachInfoOffset + boneIdx * 16;
        tm.m00 = attachInfo[matOffset];
        tm.m01 = attachInfo[matOffset + 1];
        tm.m04 = attachInfo[matOffset + 4];
        tm.m05 = attachInfo[matOffset + 5];
        tm.m12 = attachInfo[matOffset + 12];
        tm.m13 = attachInfo[matOffset + 13];
        boneNode.matrix = tm;
      }
    }
  };
  skeleton.setSlotTexture = function (slotName, tex2d, createNew) {
    if (this.isAnimationCached()) {
      console.error(`Cached mode can't change texture of slot`);
      return;
    }
    if (!this._nativeSkeleton) return;
    const slot = this.findSlot(slotName);
    if (!slot) {
      console.error(`No slot named:${slotName}`);
      return;
    }
    const createNewAttachment = createNew || false;
    this._nativeSkeleton.setSlotTexture(slotName, tex2d, createNewAttachment);
  };

  //////////////////////////////////////////
  // assembler
  const assembler = cc.internal.SpineAssembler;

  // eslint-disable-next-line no-unused-vars
  assembler.createData = function (comp) {};
  assembler.updateRenderData = function (comp) {
    comp._render();
    comp.syncAttachedNode();
  };

  // eslint-disable-next-line no-unused-vars
  assembler.fillBuffers = function (comp, renderer) {};
})();

},{"./jsb-cache-manager":3}],13:[function(require,module,exports){
/****************************************************************************
 Copyright (c) 2022 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

'use strict';

if (cc.internal.VideoPlayer) {
  const {
    EventType
  } = cc.internal.VideoPlayer;
  let vec3 = cc.Vec3;
  let mat4 = cc.Mat4;
  let _mat4_temp = new mat4();
  let _topLeft = new vec3();
  let _bottomRight = new vec3();
  let kWebViewTag = 0;
  let videoPlayers = [];
  const VideoEvent = {
    PLAYING: 0,
    PAUSED: 1,
    STOPPED: 2,
    COMPLETED: 3,
    META_LOADED: 4,
    CLICKED: 5,
    READY_TO_PLAY: 6,
    UPDATE: 7,
    QUIT_FULLSCREEN: 1000
  };
  cc.internal.VideoPlayerImplManager.getImpl = function (componenet) {
    return new VideoPlayerImplOpenHarmony(componenet);
  };
  window.oh.onVideoEvent = (tag, ev, args) => {
    videoPlayers.forEach(player => {
      if (player.index == tag) {
        player.dispatchEvent(ev, args);
      }
    });
  };
  class VideoPlayer {
    constructor() {
      this._events = {};
      this._currentTime = 0;
      this._duration = 0;
      this._videoIndex = kWebViewTag++;
      this._matViewProj_temp = new mat4();
      window.oh.postMessage("createVideo", this._videoIndex);
      videoPlayers.push(this);
    }
    get index() {
      return this._videoIndex;
    }
    play() {
      window.oh.postMessage("startVideo", this._videoIndex);
    }
    setURL(url) {
      window.oh.postMessage("setVideoUrl", {
        tag: this._videoIndex,
        url: url
      });
    }
    pause() {
      window.oh.postMessage("pauseVideo", this._videoIndex);
    }
    setVisible(visible) {
      window.oh.postMessage("setVideoVisible", {
        tag: this._videoIndex,
        visible: visible
      });
    }
    resume() {
      window.oh.postMessage("resumeVideo", this._videoIndex);
    }
    currentTime() {
      window.oh.postSyncMessage("currentTime", this._videoIndex).then(result => {
        this._currentTime = result;
      });
      return this._currentTime;
    }
    stop() {
      window.oh.postMessage("stopVideo", this._videoIndex);
    }
    seekTo(val) {
      window.oh.postMessage("seekVideoTo", {
        tag: this._videoIndex,
        time: val
      });
    }
    duration() {
      window.oh.postSyncMessage("getVideoDuration", this._videoIndex).then(result => {
        this._duration = result;
      });
      return this._duration;
    }
    destroy() {
      window.oh.postMessage("removeVideo", this._videoIndex);
    }
    setFullScreenEnabled(enable) {
      window.oh.postMessage("setFullScreenEnabled", {
        tag: this._videoIndex,
        fullScreen: enable
      });
    }
    setKeepAspectRatioEnabled(enable) {
      cc.warn('The platform does not support');
    }
    setFrame(x, y, w, h) {
      window.oh.postMessage("setVideoRect", {
        tag: this._videoIndex,
        x: x,
        y: y,
        w: w,
        h: h
      });
    }
    eventTypeToEventName(ev) {
      let evString;
      switch (ev) {
        case VideoEvent.PLAYING:
          evString = "play";
          break;
        case VideoEvent.PAUSED:
          evString = "pause";
          break;
        case VideoEvent.STOPPED:
          evString = "stoped";
          break;
        case VideoEvent.COMPLETED:
          evString = "ended";
          break;
        case VideoEvent.META_LOADED:
          evString = "loadedmetadata";
          break;
        case VideoEvent.CLICKED:
          evString = "click";
          break;
        case VideoEvent.READY_TO_PLAY:
          evString = "suspend";
          break;
        case VideoEvent.UPDATE:
          evString = "update";
          break;
        case VideoEvent.QUIT_FULLSCREEN:
          evString = "suspend";
          break;
        default:
          evString = "none";
          break;
      }
      return evString;
    }
    dispatchEvent(type, args) {
      let eventName = this.eventTypeToEventName(type);
      const listeners = this._events[eventName];
      if (listeners) {
        for (let i = 0; i < listeners.length; i++) {
          listeners[i](args);
        }
      }
    }
    addEventListener(name, listener) {
      if (!this._events[name]) {
        this._events[name] = [];
      }
      this._events[name].push(listener);
    }
    removeEventListener(name, listener) {
      const listeners = this._events[name];
      if (listeners && listeners.length > 0) {
        for (let i = listeners.length; i--; i > 0) {
          if (listeners[i] === listener) {
            listeners.splice(i, 1);
            break;
          }
        }
      }
    }
  }
  class VideoPlayerImplOpenHarmony extends cc.internal.VideoPlayerImpl {
    constructor(componenet) {
      super(componenet);
      this._matViewProj_temp = new mat4();
    }
    syncClip(clip) {
      this.removeVideoPlayer();
      if (!clip) {
        return;
      }
      this.createVideoPlayer(clip._nativeAsset);
    }
    syncURL(url) {
      this.removeVideoPlayer();
      if (!url) {
        return;
      }
      this.createVideoPlayer(url);
    }
    onCanplay() {
      if (this._loaded) {
        return;
      }
      this._loaded = true;
      this.video.setVisible(this._visible);
      this.dispatchEvent(EventType.READY_TO_PLAY);
      this.delayedPlay();
    }
    _bindEvent() {
      this.video.addEventListener('loadedmetadata', this.onLoadedMetadata.bind(this));
      this.video.addEventListener('suspend', this.onCanPlay.bind(this));
      this.video.addEventListener('play', this.onPlay.bind(this));
      this.video.addEventListener('pause', this.onPause.bind(this));
      this.video.addEventListener('stoped', this.onStoped.bind(this));
      this.video.addEventListener('click', this.onClick.bind(this));
      this.video.addEventListener('ended', this.onEnded.bind(this));
    }
    onLoadedMetadata() {
      this._loadedMeta = true;
      this._forceUpdate = true;
      if (this._visible) {
        this.enable();
      } else {
        this.disable();
      }
      this.dispatchEvent(EventType.META_LOADED);
      this.delayedFullScreen();
      this.delayedPlay();
    }
    createVideoPlayer(url) {
      this._video = new VideoPlayer();
      this._bindEvent();
      this._video.setVisible(this._visible);
      this._video.setURL(url);
      this._forceUpdate = true;
    }
    removeVideoPlayer() {
      let video = this.video;
      if (video) {
        video.stop();
        video.setVisible(false);
        video.destroy();
        this._playing = false;
        this._loaded = false;
        this._loadedMeta = false;
        this._ignorePause = false;
        this._cachedCurrentTime = 0;
        this._video = null;
      }
    }
    getDuration() {
      if (!this.video) {
        return -1;
      }
      return this.video.duration();
    }
    syncPlaybackRate() {
      cc.warn('The platform does not support');
    }
    syncVolume() {
      cc.warn('The platform does not support');
    }
    syncMute() {
      cc.warn('The platform does not support');
    }
    syncLoop() {
      cc.warn('The platform does not support');
    }
    syncStayOnBottom() {
      cc.warn('The platform does not support');
    }
    getCurrentTime() {
      if (this.video) {
        this._cachedCurrentTime = this.video.currentTime();
        return this._cachedCurrentTime;
      }
      return -1;
    }
    seekTo(val) {
      let video = this._video;
      if (!video) return;
      video.seekTo(val);
      this._cachedCurrentTime = val;
    }
    disable(noPause) {
      if (this.video) {
        if (!noPause) {
          this.video.pause();
        }
        this.video.setVisible(false);
        this._visible = false;
      }
    }
    enable() {
      if (this.video) {
        this.video.setVisible(true);
        this._visible = true;
      }
    }
    canPlay() {
      this.video.play();
      this.syncCurrentTime();
    }
    resume() {
      if (this.video) {
        this.video.resume();
        this.syncCurrentTime();
        this._playing = true;
      }
    }
    pause() {
      if (this.video) {
        this._cachedCurrentTime = this.video.currentTime();
        this.video.pause();
      }
    }
    stop() {
      if (this.video) {
        this._ignorePause = true;
        this.video.seekTo(0);
        this._cachedCurrentTime = 0;
        this.video.stop();
      }
    }
    canFullScreen(enabled) {
      if (this.video) {
        this.video.setFullScreenEnabled(enabled);
      }
    }
    syncKeepAspectRatio(enabled) {
      if (this.video) {
        this.video.setKeepAspectRatioEnabled(enabled);
      }
    }
    syncMatrix() {
      if (!this._video || !this._component || !this._uiTrans) return;
      const camera = this.UICamera;
      if (!camera) {
        return;
      }
      this._component.node.getWorldMatrix(_mat4_temp);
      const {
        width,
        height
      } = this._uiTrans.contentSize;
      if (!this._forceUpdate && camera.matViewProj.equals(this._matViewProj_temp) && this._m00 === _mat4_temp.m00 && this._m01 === _mat4_temp.m01 && this._m04 === _mat4_temp.m04 && this._m05 === _mat4_temp.m05 && this._m12 === _mat4_temp.m12 && this._m13 === _mat4_temp.m13 && this._w === width && this._h === height) {
        return;
      }
      this._matViewProj_temp.set(camera.matViewProj);
      // update matrix cache
      this._m00 = _mat4_temp.m00;
      this._m01 = _mat4_temp.m01;
      this._m04 = _mat4_temp.m04;
      this._m05 = _mat4_temp.m05;
      this._m12 = _mat4_temp.m12;
      this._m13 = _mat4_temp.m13;
      this._w = width;
      this._h = height;
      let canvas_width = cc.game.canvas.width;
      let canvas_height = cc.game.canvas.height;
      let ap = this._uiTrans.anchorPoint;
      // Vectors in node space
      vec3.set(_topLeft, -ap.x * this._w, (1.0 - ap.y) * this._h, 0);
      vec3.set(_bottomRight, (1 - ap.x) * this._w, -ap.y * this._h, 0);
      // Convert to world space
      vec3.transformMat4(_topLeft, _topLeft, _mat4_temp);
      vec3.transformMat4(_bottomRight, _bottomRight, _mat4_temp);
      // need update camera data
      camera.update();
      // Convert to Screen space
      camera.worldToScreen(_topLeft, _topLeft);
      camera.worldToScreen(_bottomRight, _bottomRight);
      let finalWidth = _bottomRight.x - _topLeft.x;
      let finalHeight = _topLeft.y - _bottomRight.y;
      this._video.setFrame(_topLeft.x, canvas_height - _topLeft.y, finalWidth, finalHeight);
      this._forceUpdate = false;
    }
  }
}

},{}],14:[function(require,module,exports){
/****************************************************************************
 Copyright (c) 2018 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
  worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
  not use Cocos Creator software for developing other software or tools that's
  used for developing games. You are not granted to publish, distribute,
  sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

'use strict';

if (cc.internal.VideoPlayer) {
  const {
    EventType
  } = cc.internal.VideoPlayer;
  let vec3 = cc.Vec3;
  let mat4 = cc.Mat4;
  let _mat4_temp = new mat4();
  let _topLeft = new vec3();
  let _bottomRight = new vec3();
  cc.internal.VideoPlayerImplManager.getImpl = function (componenet) {
    return new VideoPlayerImplJSB(componenet);
  };
  class VideoPlayerImplJSB extends cc.internal.VideoPlayerImpl {
    constructor(componenet) {
      super(componenet);
      this._matViewProj_temp = new mat4();
    }
    syncClip(clip) {
      this.removeVideoPlayer();
      if (!clip) {
        return;
      }
      this.createVideoPlayer(clip._nativeAsset);
    }
    syncURL(url) {
      this.removeVideoPlayer();
      if (!url) {
        return;
      }
      this.createVideoPlayer(url);
    }
    onCanplay() {
      if (this._loaded) {
        return;
      }
      this._loaded = true;
      this.video.setVisible(this._visible);
      this.dispatchEvent(EventType.READY_TO_PLAY);
      this.delayedPlay();
    }
    _bindEvent() {
      this.video.addEventListener('loadedmetadata', this.onLoadedMetadata.bind(this));
      this.video.addEventListener('suspend', this.onCanPlay.bind(this));
      this.video.addEventListener('play', this.onPlay.bind(this));
      this.video.addEventListener('pause', this.onPause.bind(this));
      this.video.addEventListener('stoped', this.onStoped.bind(this));
      this.video.addEventListener('click', this.onClick.bind(this));
      this.video.addEventListener('ended', this.onEnded.bind(this));
    }
    onLoadedMetadata() {
      this._loadedMeta = true;
      this._forceUpdate = true;
      if (this._visible) {
        this.enable();
      } else {
        this.disable();
      }
      this.dispatchEvent(EventType.META_LOADED);
      this.delayedFullScreen();
      this.delayedPlay();
    }
    createVideoPlayer(url) {
      this._video = new jsb.VideoPlayer();
      this._bindEvent();
      this._video.setVisible(this._visible);
      this._video.setURL(url);
      this._forceUpdate = true;
    }
    removeVideoPlayer() {
      let video = this.video;
      if (video) {
        video.stop();
        video.setVisible(false);
        video.destroy();
        this._playing = false;
        this._loaded = false;
        this._loadedMeta = false;
        this._ignorePause = false;
        this._cachedCurrentTime = 0;
        this._video = null;
      }
    }
    getDuration() {
      if (!this.video) {
        return -1;
      }
      return this.video.duration();
    }
    syncPlaybackRate(value) {
      if (this.video) {
        this.video.setPlaybackRate(value);
      }
    }
    syncVolume() {
      cc.warn('The platform does not support');
    }
    syncMute(enable) {
      if (this.video && this.video.muted !== enable) {
        this.video.setMute(enable);
      }
    }
    syncLoop(enable) {
      if (this.video && this.video.loop !== enable) {
        this.video.setLoop(enable);
      }
    }
    syncStayOnBottom() {
      cc.warn('The platform does not support');
    }
    getCurrentTime() {
      if (this.video) {
        this._cachedCurrentTime = this.video.currentTime();
        return this._cachedCurrentTime;
      }
      return -1;
    }
    seekTo(val) {
      let video = this._video;
      if (!video) return;
      video.seekTo(val);
      this._cachedCurrentTime = val;
    }
    disable(noPause) {
      if (this.video) {
        if (!noPause) {
          this.video.pause();
        }
        this.video.setVisible(false);
        this._visible = false;
      }
    }
    enable() {
      if (this.video) {
        this.video.setVisible(true);
        this._visible = true;
      }
    }
    canPlay() {
      this.video.play();
      this.syncCurrentTime();
    }
    resume() {
      if (this.video) {
        this.video.resume();
        this.syncCurrentTime();
        this._playing = true;
      }
    }
    pause() {
      if (this.video) {
        this._cachedCurrentTime = this.video.currentTime();
        this.video.pause();
      }
    }
    stop() {
      if (this.video) {
        this._ignorePause = true;
        this.video.seekTo(0);
        this._cachedCurrentTime = 0;
        this.video.stop();
      }
    }
    canFullScreen(enabled) {
      if (this.video) {
        this.video.setFullScreenEnabled(enabled);
      }
    }
    syncKeepAspectRatio(enabled) {
      if (this.video) {
        this.video.setKeepAspectRatioEnabled(enabled);
      }
    }
    syncMatrix() {
      if (!this._video || !this._component || !this._uiTrans) return;
      const camera = this.UICamera;
      if (!camera) {
        return;
      }
      this._component.node.getWorldMatrix(_mat4_temp);
      const {
        width,
        height
      } = this._uiTrans.contentSize;
      if (!this._forceUpdate && camera.matViewProj.equals(this._matViewProj_temp) && this._m00 === _mat4_temp.m00 && this._m01 === _mat4_temp.m01 && this._m04 === _mat4_temp.m04 && this._m05 === _mat4_temp.m05 && this._m12 === _mat4_temp.m12 && this._m13 === _mat4_temp.m13 && this._w === width && this._h === height) {
        return;
      }
      this._matViewProj_temp.set(camera.matViewProj);
      // update matrix cache
      this._m00 = _mat4_temp.m00;
      this._m01 = _mat4_temp.m01;
      this._m04 = _mat4_temp.m04;
      this._m05 = _mat4_temp.m05;
      this._m12 = _mat4_temp.m12;
      this._m13 = _mat4_temp.m13;
      this._w = width;
      this._h = height;
      let canvas_width = cc.game.canvas.width;
      let canvas_height = cc.game.canvas.height;
      let ap = this._uiTrans.anchorPoint;
      // Vectors in node space
      vec3.set(_topLeft, -ap.x * this._w, (1.0 - ap.y) * this._h, 0);
      vec3.set(_bottomRight, (1 - ap.x) * this._w, -ap.y * this._h, 0);
      // Convert to world space
      vec3.transformMat4(_topLeft, _topLeft, _mat4_temp);
      vec3.transformMat4(_bottomRight, _bottomRight, _mat4_temp);
      // need update camera data
      camera.update();
      // Convert to Screen space
      camera.worldToScreen(_topLeft, _topLeft);
      camera.worldToScreen(_bottomRight, _bottomRight);
      let finalWidth = _bottomRight.x - _topLeft.x;
      let finalHeight = _topLeft.y - _bottomRight.y;
      this._video.setFrame(_topLeft.x, canvas_height - _topLeft.y, finalWidth, finalHeight);
      this._forceUpdate = false;
    }
  }
}

},{}],15:[function(require,module,exports){
/****************************************************************************
 Copyright (c) 2017-2020 Xiamen Yaji Software Co., Ltd.

 https://www.cocos.com/

 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated engine source code (the "Software"), a limited,
 worldwide, royalty-free, non-assignable, revocable and non-exclusive license
 to use Cocos Creator solely to develop games on your target platforms. You shall
 not use Cocos Creator software for developing other software or tools that's
 used for developing games. You are not granted to publish, distribute,
 sublicense, and/or sell copies of Cocos Creator.

 The software or tools in this License Agreement are licensed, not sold.
 Xiamen Yaji Software Co., Ltd. reserves all rights not expressly granted to you.

 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 THE SOFTWARE.
 ****************************************************************************/

'use strict';

if (cc.internal.WebView) {
  const {
    EventType
  } = cc.internal.WebView;
  let vec3 = cc.Vec3;
  let mat4 = cc.Mat4;
  let _mat4_temp = new mat4();
  let _topLeft = new vec3();
  let _bottomRight = new vec3();
  cc.internal.WebViewImplManager.getImpl = function (componenet) {
    return new WebViewImplJSB(componenet);
  };
  class WebViewImplJSB extends cc.internal.WebViewImpl {
    constructor(componenet) {
      super(componenet);
      this.jsCallback = null;
      this.interfaceSchema = null;
      this._matViewProj_temp = new mat4();
    }
    _bindEvent() {
      let onLoaded = () => {
        this._forceUpdate = true;
        this.dispatchEvent(EventType.LOADED);
      };
      let onError = () => {
        this.dispatchEvent(EventType.ERROR);
      };
      this.webview.setOnDidFinishLoading(onLoaded);
      this.webview.setOnDidFailLoading(onError);
      this.jsCallback && this.setOnJSCallback(this.jsCallback);
      this.interfaceSchema && this.setJavascriptInterfaceScheme(this.interfaceSchema);
      // remove obj
      this.jsCallback = null;
      this.interfaceSchema = null;
    }
    createWebView() {
      if (!jsb.WebView) {
        console.warn('jsb.WebView is null');
        return;
      }
      this._webview = jsb.WebView.create();
      this._bindEvent();
    }
    removeWebView() {
      let webview = this.webview;
      if (webview) {
        this.webview.destroy();
        this.reset();
      }
    }
    disable() {
      if (this.webview) {
        this.webview.setVisible(false);
      }
    }
    enable() {
      if (this.webview) {
        this.webview.setVisible(true);
      }
    }
    setOnJSCallback(callback) {
      let webview = this.webview;
      if (webview) {
        webview.setOnJSCallback(callback);
      } else {
        this.jsCallback = callback;
      }
    }
    setJavascriptInterfaceScheme(scheme) {
      let webview = this.webview;
      if (webview) {
        webview.setJavascriptInterfaceScheme(scheme);
      } else {
        this.interfaceSchema = scheme;
      }
    }
    loadURL(url) {
      let webview = this.webview;
      if (webview) {
        webview.src = url;
        webview.loadURL(url);
        this.dispatchEvent(EventType.LOADING);
      }
    }
    evaluateJS(str) {
      let webview = this.webview;
      if (webview) {
        return webview.evaluateJS(str);
      }
    }
    syncMatrix() {
      if (!this._webview || !this._component || !this._uiTrans) return;
      const camera = this.UICamera;
      if (!camera) {
        return;
      }
      this._component.node.getWorldMatrix(_mat4_temp);
      const {
        width,
        height
      } = this._uiTrans.contentSize;
      if (!this._forceUpdate && camera.matViewProj.equals(this._matViewProj_temp) && this._m00 === _mat4_temp.m00 && this._m01 === _mat4_temp.m01 && this._m04 === _mat4_temp.m04 && this._m05 === _mat4_temp.m05 && this._m12 === _mat4_temp.m12 && this._m13 === _mat4_temp.m13 && this._w === width && this._h === height) {
        return;
      }
      this._matViewProj_temp.set(camera.matViewProj);
      // update matrix cache
      this._m00 = _mat4_temp.m00;
      this._m01 = _mat4_temp.m01;
      this._m04 = _mat4_temp.m04;
      this._m05 = _mat4_temp.m05;
      this._m12 = _mat4_temp.m12;
      this._m13 = _mat4_temp.m13;
      this._w = width;
      this._h = height;
      let canvas_width = cc.game.canvas.width;
      let canvas_height = cc.game.canvas.height;
      let ap = this._uiTrans.anchorPoint;
      // Vectors in node space
      vec3.set(_topLeft, -ap.x * this._w, (1.0 - ap.y) * this._h, 0);
      vec3.set(_bottomRight, (1 - ap.x) * this._w, -ap.y * this._h, 0);
      // Convert to world space
      vec3.transformMat4(_topLeft, _topLeft, _mat4_temp);
      vec3.transformMat4(_bottomRight, _bottomRight, _mat4_temp);
      // need update camera data
      camera.update();
      // Convert to Screen space
      camera.worldToScreen(_topLeft, _topLeft);
      camera.worldToScreen(_bottomRight, _bottomRight);
      let finalWidth = _bottomRight.x - _topLeft.x;
      let finalHeight = _topLeft.y - _bottomRight.y;
      this._webview.setFrame(_topLeft.x, canvas_height - _topLeft.y, finalWidth, finalHeight);
      this._forceUpdate = false;
    }
  }
}

},{}],16:[function(require,module,exports){
"use strict";

const jsbWindow = globalThis.jsb.window = globalThis.jsb.window || {}; //TODO(PatriceJiang):

module.exports = jsbWindow;

},{}]},{},[1]);
